Home | Overview | Browser | Access | Login | Cookbook 
  VSA logo

Glossary of VSA attributes

This Glossary alphabetically lists all attributes used in the VSAv20181120 database(s) held in the VSA. If you would like to have more information about the schema tables please use the VSAv20181120 Schema Browser (other Browser versions).
A B C D E F G H I J K L M
N O P Q R S T U V W X Y Z

R

NameSchema TableDatabaseDescriptionTypeLengthUnitDefault ValueUnified Content Descriptor
r vvvBulge3DExtinctVals EXTINCT Distance to map pixel real 4 kpc -0.9999995e9  
R1mag_USNOB1 ravedr5Source RAVE R1 mag from USNO-B real 4 mag   phot.mag;em.opt.R
r21 ogle4CepLmcSource, ogle4CepSmcSource, ogle4RRLyrLmcSource, ogle4RRLyrSmcSource OGLE Fourier coefficient R_21 real 4     stat.param
r21_g cepheid, rrlyrae GAIADR1 Fourier decomposition parameter r21G: A2/A1 (for G band) float 8     stat.Fourier
r21_g_error cepheid, rrlyrae GAIADR1 Uncertainty on Fourier decomposition parameter r21G float 8     stat.error
R2mag_USNOB1 ravedr5Source RAVE R2 mag from USNO-B real 4 mag   phot.mag;em.opt.R
r31 ogle4CepLmcSource, ogle4CepSmcSource, ogle4RRLyrLmcSource, ogle4RRLyrSmcSource OGLE Fourier coefficient R_31 real 4     stat.param
r_2mass allwise_sc2 WISE Distance separating the positions of the WISE source and associated 2MASS PSC source within 3". This column is "null" if there is no associated 2MASS PSC source. float 8 arcsec    
r_3sig twomass_xsc TWOMASS 3-sigma K isophotal semi-major axis. real 4 arcsec   stat.error
R_CRCOR spectra SIXDF cross-correlation peak real 4      
R_D mgcGalaxyStruct MGC Exponential Disk Scale Length real 4   99.99  
R_D_KPC mgcGalaxyStruct MGC Exponential Disk Scale Length real 4 kpc 99.99  
R_Dm mgcGalaxyStruct MGC Exponential Disk Scale Length error (-) real 4   99.99  
R_Dp mgcGalaxyStruct MGC Exponential Disk Scale Length error (+) real 4   99.99  
r_ext twomass_sixx2_xsc TWOMASS extrapolation/total radius real 4 arcsec    
r_ext twomass_xsc TWOMASS extrapolation/total radius. real 4 arcsec   phys.angSize;src
r_fc twomass_xsc TWOMASS K fiducial Kron circular aperture radius. real 4 arcsec   phys.angSize;src
r_fe twomass_xsc TWOMASS K fiducial Kron elliptical aperture semi-major axis. real 4 arcsec   phys.angSize;src
r_j21fc twomass_xsc TWOMASS 21mag/sq." isophotal J fiducial circular ap. radius. real 4 arcsec   phys.angSize;src
r_j21fe twomass_xsc TWOMASS 21mag/sq." isophotal J fiducial ell. ap. semi-major axis. real 4 arcsec   phys.angSize;src
r_k20fc twomass_xsc TWOMASS 20mag/sq." isophotal K fiducial circular ap. radius. real 4 arcsec   phys.angSize;src
r_k20fe twomass_sixx2_xsc TWOMASS 20mag/sq.″ isophotal K fiducial ell. ap. semi-major axis real 4 arcsec    
r_k20fe twomass_xsc TWOMASS 20mag/sq." isophotal K fiducial ell. ap. semi-major axis. real 4 arcsec   phys.angSize;src
RA agntwomass, denisi, denisj, durukst, fsc, hes, hipass, nvss, rass, shapley, sumss, supercos, twomass SIXDF RA J2000 float 8 degrees    
RA akari_lmc_psa_v1, akari_lmc_psc_v1 AKARI Right ascension J2000 float 8 degrees    
RA target SIXDF master RA J2000 (decimal degrees) float 8 degrees    
RA twoxmm, twoxmm_v1_2, twoxmmi_dr3_v1_0, xmm3dr4 XMM Corrected Right Ascension of the detection in degrees (J2000) after statistical correlation of the emldetect coordinates, RA_UNC and DEC_UNC, with the USNO B1.0 optical source catalogue using the SAS task eposcorr. In case where the cross-correlation is determined to be unreliable no correction is applied and this value is therefore the same as RA_UNC. float 8 degrees    
ra MapApertureIDsvikingZY_selJ VIKINGZYSELJv20170124 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra MapApertureIDsvikingZY_selJ, vikingZY_selJ_RemeasMergeLog VIKINGZYSELJv20160909 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VHSDR1 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VHSDR2 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VHSDR3 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VHSDR4 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VHSv20120926 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VHSv20130417 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VHSv20150108 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VHSv20160114 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VHSv20160507 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VHSv20170630 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VHSv20171207 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VHSv20180419 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VIDEODR2 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VIDEODR3 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VIDEODR4 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VIDEODR5 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VIDEOv20100513 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VIDEOv20111208 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VIKINGDR2 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VIKINGDR3 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VIKINGDR4 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VIKINGv20110714 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VIKINGv20111019 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VIKINGv20130417 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VIKINGv20150421 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VIKINGv20151230 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VIKINGv20160406 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VIKINGv20161202 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VIKINGv20170715 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VIKINGv20181012 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VMCDR1 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VMCDR3 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VMCDR4 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VMCv20110816 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VMCv20110909 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VMCv20120126 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VMCv20121128 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VMCv20130304 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VMCv20130805 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VMCv20140428 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VMCv20140903 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VMCv20150309 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VMCv20151218 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VMCv20160311 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VMCv20160822 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VMCv20170109 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VMCv20170411 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VMCv20171101 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VMCv20180702 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VMCv20181120 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredMosaic VVVDR4 Right Ascension of mosaic centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VHSDR2 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VHSDR3 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VHSDR4 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VHSv20120926 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VHSv20130417 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VHSv20150108 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VHSv20160114 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VHSv20160507 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VHSv20170630 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VHSv20171207 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VHSv20180419 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VIDEODR2 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VIDEODR3 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VIDEODR4 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VIDEODR5 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VIDEOv20100513 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VIDEOv20111208 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VIKINGDR2 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VIKINGDR3 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VIKINGDR4 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VIKINGv20110714 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VIKINGv20111019 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VIKINGv20130417 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VIKINGv20150421 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VIKINGv20151230 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VIKINGv20160406 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VIKINGv20161202 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VIKINGv20170715 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VIKINGv20181012 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VMCDR1 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VMCDR3 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VMCDR4 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VMCv20110816 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VMCv20110909 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VMCv20120126 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VMCv20121128 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VMCv20130304 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VMCv20130805 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VMCv20140428 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VMCv20140903 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VMCv20150309 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VMCv20151218 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VMCv20160311 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VMCv20160822 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VMCv20170109 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VMCv20170411 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VMCv20171101 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VMCv20180702 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VMCv20181120 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VSAQC Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack VVVDR4 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra RequiredStack, RequiredTile VHSDR1 Right Ascension of stack centre float 8 degrees   pos.eq.ra;meta.main
ra allwise_sc2 WISE J2000 right ascension with respect to the 2MASS PSC reference frame from the non-moving source extraction. float 8 deg    
ra aux_qso_icrf2_match, gaia_source, tgas_source GAIADR1 Celestial Right Ascension float 8 degrees   pos.eq.ra;meta.main
ra combo17CDFSSource COMBO17 J2000 right ascension with respect to the ICRS float 8 degrees   pos.eq.ra;meta.main
ra eros2LMCSource, eros2SMCSource, erosLMCSource, erosSMCSource EROS J2000 right ascension float 8 degrees   pos.eq.ra;meta.main
ra first08Jul16Source, firstSource, firstSource12Feb16 FIRST J2000 Celestial Right Ascension float 8 degrees   pos.eq.ra;meta.main
ra glimpse1_hrc, glimpse1_mca, glimpse2_hrc, glimpse2_mca, glimpse_hrc_inter, glimpse_mca_inter GLIMPSE Right Ascension (J2000) float 8 degrees   pos.eq.ra;meta.main
ra grs_ngpSource, grs_ranSource, grs_sgpSource TWODFGRS R.A. (B1950) in HH MM SS.SS float 8      
ra hipparcos_new_reduction GAIADR1 Right Ascension in the ICRS at epoch 1991.25 float 8 degrees   meta.main;pos.eq.ra
ra igsl_source GAIADR1 Celestial Right Ascension at catalogue epoch float 8 degrees   pos.eq.ra;meta.main
ra iras_psc IRAS J2000 Celestial Right Ascension float 8 degrees   pos.eq.ra;meta.main
ra machoLMCSource, machoSMCSource MACHO J2000 right ascension float 8 degrees   pos.eq.ra;meta.main
ra mcps_lmcSource, mcps_smcSource MCPS J2000 right ascension float 8 degrees   pos.eq.ra;meta.main
ra mgcDetection MGC Object right ascension (J2000) float 8 deg    
ra nvssSource NVSS J2000 Celestial Right Ascension float 8 degrees   pos.eq.ra;meta.main
ra ogle3LpvLmcSource, ogle3LpvSmcSource, ogle4CepLmcSource, ogle4CepSmcSource, ogle4RRLyrLmcSource, ogle4RRLyrSmcSource OGLE J2000 Celestial Right Ascension float 8 degrees   pos.eq.ra;meta.main
ra rosat_bsc, rosat_fsc ROSAT Right Ascension (decimal degrees; J2000) float 8 degrees   pos.eq.ra;meta.main
ra sage_lmcIracSource, sage_lmcMips160Source, sage_lmcMips24Source, sage_lmcMips70Source, sage_smcIRACv1_5Source SPITZER Right ascension (J2000) float 8 deg    
ra spitzer_smcSource SPITZER J2000 right ascension float 8 degrees   pos.eq.ra;meta.main
ra twomass_psc TWOMASS J2000 right ascension with respect to the ICRS float 8 degrees   pos.eq.ra;meta.main
ra twomass_scn TWOMASS Right ascension of scan center for equinox J2000. float 8 degrees   pos.eq.ra;meta.main
ra twomass_sixx2_psc TWOMASS right ascension (J2000 decimal deg) float 8 deg    
ra twomass_sixx2_scn TWOMASS right ascension (J2000 decimal deg) of scan center float 8 deg    
ra twomass_sixx2_xsc TWOMASS right ascension (J2000 decimal deg) based on peak pixel float 8 deg    
ra twomass_xsc TWOMASS Right ascension (J2000 decimal deg) based on peak pixel. float 8 degrees   pos.eq.ra;meta.main
ra twompzPhotoz TWOMPZ R.A. (J2000) based on the peak pixel {image primary HDU keyword: RAJ2000} float 8 Degrees   pos.eq.ra;meta.main
ra tycho2 GAIADR1 Observed Tycho2 Right Ascension in ICRS float 8 degrees   meta.main;pos.eq.ra
ra ukirtFSstars VIDEOv20100513 Right Ascension of star at Equinox J2000.0 float 8 degrees   pos.eq.ra;meta.main
ra ukirtFSstars VIKINGv20110714 Right Ascension of star at Equinox J2000.0 float 8 degrees   pos.eq.ra;meta.main
ra vhsDetection VHSDR3 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vhsDetection VHSDR4 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vhsDetection VHSv20120926 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vhsDetection VHSv20130417 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vhsDetection VHSv20140409 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vhsDetection VHSv20150108 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vhsDetection VHSv20160114 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vhsDetection VHSv20160507 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vhsDetection VHSv20170630 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vhsDetection VHSv20171207 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vhsDetection VHSv20180419 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vhsDetection, vhsListRemeasurement, vhsSource, vhsSourceRemeasurement, vhsTilePawPrints VHSDR1 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vhsDetection, vhsTilePawPrints VHSDR2 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vhsMergeLog VHSDR2 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vhsMergeLog VHSDR3 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vhsMergeLog VHSDR4 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vhsMergeLog VHSv20120926 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vhsMergeLog VHSv20130417 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vhsMergeLog VHSv20140409 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vhsMergeLog VHSv20150108 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vhsMergeLog VHSv20160114 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vhsMergeLog VHSv20160507 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vhsMergeLog VHSv20170630 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vhsMergeLog VHSv20171207 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vhsMergeLog VHSv20180419 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vhsMergeLog, vhsTileSet VHSDR1 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vhsTilePawTDOnly VHSDR1 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vhsTilePawTDOnly VHSDR2 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vhsTilePawTDOnly VHSDR3 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vhsTilePawTDOnly VHSDR4 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vhsTilePawTDOnly VHSv20120926 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vhsTilePawTDOnly VHSv20130417 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vhsTilePawTDOnly VHSv20140409 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vhsTilePawTDOnly VHSv20150108 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vhsTilePawTDOnly VHSv20160114 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vhsTilePawTDOnly VHSv20160507 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vhsTilePawTDOnly VHSv20170630 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vhsTilePawTDOnly VHSv20171207 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vhsTilePawTDOnly VHSv20180419 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra videoDetection VIDEODR3 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra videoDetection VIDEODR4 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra videoDetection VIDEODR5 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra videoDetection VIDEOv20111208 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra videoDetection, videoListRemeasurement, videoSourceRemeasurement VIDEOv20100513 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra videoDetection, videoSource, videoTilePawPrints VIDEODR2 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra videoMergeLog VIDEODR3 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra videoMergeLog VIDEODR4 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra videoMergeLog VIDEODR5 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra videoMergeLog VIDEOv20100513 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra videoMergeLog VIDEOv20111208 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra videoMergeLog, videoTileSet VIDEODR2 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra videoTilePawTDOnly VIDEODR2 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra videoTilePawTDOnly VIDEODR3 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra videoTilePawTDOnly VIDEODR4 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra videoTilePawTDOnly VIDEODR5 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra videoTilePawTDOnly VIDEOv20111208 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra videoVariability VIDEODR2 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra videoVariability VIDEODR3 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra videoVariability VIDEODR4 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra videoVariability VIDEODR5 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra videoVariability VIDEOv20100513 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra videoVariability VIDEOv20111208 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vikingDetection VIKINGDR3 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vikingDetection VIKINGDR4 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vikingDetection VIKINGv20111019 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vikingDetection VIKINGv20130417 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vikingDetection VIKINGv20140402 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vikingDetection VIKINGv20150421 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vikingDetection VIKINGv20151230 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vikingDetection VIKINGv20160406 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vikingDetection VIKINGv20161202 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vikingDetection VIKINGv20170715 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vikingDetection VIKINGv20181012 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vikingDetection, vikingListRemeasurement, vikingSourceRemeasurement VIKINGv20110714 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vikingDetection, vikingSource, vikingTilePawPrints VIKINGDR2 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vikingMapRemeasAver VIKINGZYSELJv20160909 Averaged Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vikingMapRemeasAver VIKINGZYSELJv20170124 Averaged Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vikingMapRemeasurement VIKINGZYSELJv20160909 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vikingMapRemeasurement VIKINGZYSELJv20170124 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vikingMergeLog VIKINGDR3 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vikingMergeLog VIKINGDR4 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vikingMergeLog VIKINGv20110714 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vikingMergeLog VIKINGv20111019 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vikingMergeLog VIKINGv20130417 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vikingMergeLog VIKINGv20140402 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vikingMergeLog VIKINGv20150421 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vikingMergeLog VIKINGv20151230 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vikingMergeLog VIKINGv20160406 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vikingMergeLog VIKINGv20161202 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vikingMergeLog VIKINGv20170715 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vikingMergeLog VIKINGv20181012 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vikingMergeLog, vikingTileSet VIKINGDR2 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vikingTilePawTDOnly VIKINGDR2 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vikingTilePawTDOnly VIKINGDR3 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vikingTilePawTDOnly VIKINGDR4 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vikingTilePawTDOnly VIKINGv20111019 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vikingTilePawTDOnly VIKINGv20130417 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vikingTilePawTDOnly VIKINGv20140402 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vikingTilePawTDOnly VIKINGv20150421 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vikingTilePawTDOnly VIKINGv20151230 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vikingTilePawTDOnly VIKINGv20160406 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vikingTilePawTDOnly VIKINGv20161202 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vikingTilePawTDOnly VIKINGv20170715 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vikingTilePawTDOnly VIKINGv20181012 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vikingVariability VIKINGDR2 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vikingVariability VIKINGDR3 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vikingVariability VIKINGDR4 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vikingVariability VIKINGv20110714 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vikingVariability VIKINGv20111019 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vikingVariability VIKINGv20130417 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vikingVariability VIKINGv20140402 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vikingVariability VIKINGv20150421 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vikingVariability VIKINGv20151230 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vikingVariability VIKINGv20160406 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vikingVariability VIKINGv20161202 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vikingVariability VIKINGv20170715 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vikingVariability VIKINGv20181012 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vikingZY_selJ_SourceRemeasurement VIKINGZYSELJv20160909 Celestial Right Ascension of aperture float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vikingZY_selJ_SourceRemeasurement VIKINGZYSELJv20170124 Celestial Right Ascension of aperture float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vmcCepheidVariables VMCDR3 Celestial Right Ascension {catalogue TType keyword: RA} float 8 deg   pos.eq.ra
ra vmcCepheidVariables VMCv20121128 Celestial Right Ascension {catalogue TType keyword: RA} float 8 deg   pos.eq.ra
ra vmcCepheidVariables VMCv20140428 Celestial Right Ascension {catalogue TType keyword: RA} float 8 deg   pos.eq.ra
ra vmcCepheidVariables VMCv20140903 Celestial Right Ascension {catalogue TType keyword: RA} float 8 deg   pos.eq.ra
ra vmcCepheidVariables VMCv20150309 Celestial Right Ascension {catalogue TType keyword: RA} float 8 deg   pos.eq.ra
ra vmcCepheidVariables VMCv20151218 Celestial Right Ascension {catalogue TType keyword: RA} float 8 deg   pos.eq.ra
ra vmcCepheidVariables VMCv20160311 Celestial Right Ascension {catalogue TType keyword: RA} float 8 deg   pos.eq.ra
ra vmcCepheidVariables VMCv20160822 Celestial Right Ascension {catalogue TType keyword: RA} float 8 deg   pos.eq.ra
ra vmcCepheidVariables VMCv20170109 Celestial Right Ascension {catalogue TType keyword: RA} float 8 deg   pos.eq.ra
ra vmcCepheidVariables VMCv20170411 Celestial Right Ascension {catalogue TType keyword: RA} float 8 deg   pos.eq.ra;meta.main
ra vmcCepheidVariables VMCv20171101 Celestial Right Ascension {catalogue TType keyword: RA} float 8 deg   pos.eq.ra;meta.main
ra vmcCepheidVariables VMCv20180702 Celestial Right Ascension {catalogue TType keyword: RA} float 8 deg   pos.eq.ra;meta.main
ra vmcCepheidVariables VMCv20181120 Celestial Right Ascension {catalogue TType keyword: RA} float 8 deg   pos.eq.ra;meta.main
ra vmcCepheidVariables, vmcEclipsingBinaryVariables, vmcRRlyraeVariables VMCDR4 Celestial Right Ascension {catalogue TType keyword: RA} float 8 deg   pos.eq.ra
ra vmcDetection VMCDR2 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vmcDetection VMCDR3 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vmcDetection VMCDR4 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vmcDetection VMCv20110909 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vmcDetection VMCv20120126 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vmcDetection VMCv20121128 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vmcDetection VMCv20130304 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vmcDetection VMCv20130805 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vmcDetection VMCv20140428 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vmcDetection VMCv20140903 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vmcDetection VMCv20150309 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vmcDetection VMCv20151218 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vmcDetection VMCv20160311 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vmcDetection VMCv20160822 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vmcDetection VMCv20170109 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vmcDetection VMCv20170411 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vmcDetection VMCv20171101 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vmcDetection VMCv20180702 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vmcDetection VMCv20181120 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vmcDetection, vmcListRemeasurement, vmcSourceRemeasurement VMCv20110816 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vmcDetection, vmcSource, vmcSynopticSource, vmcTilePawPrints VMCDR1 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vmcMergeLog VMCDR2 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vmcMergeLog VMCDR3 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vmcMergeLog VMCDR4 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vmcMergeLog VMCv20110816 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vmcMergeLog VMCv20110909 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vmcMergeLog VMCv20120126 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vmcMergeLog VMCv20121128 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vmcMergeLog VMCv20130304 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vmcMergeLog VMCv20130805 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vmcMergeLog VMCv20140428 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vmcMergeLog VMCv20140903 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vmcMergeLog VMCv20150309 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vmcMergeLog VMCv20151218 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vmcMergeLog VMCv20160311 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vmcMergeLog VMCv20160822 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vmcMergeLog VMCv20170109 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vmcMergeLog VMCv20170411 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vmcMergeLog VMCv20171101 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vmcMergeLog VMCv20180702 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vmcMergeLog VMCv20181120 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vmcMergeLog, vmcSynopticMergeLog, vmcTileSet VMCDR1 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vmcPointings VMCDR4 Pointing centre float 8 deg -0.9999995e9 pos.eq.ra
ra vmcPointings VMCv20160311 Pointing centre float 8 deg -0.9999995e9 pos.eq.ra
ra vmcPointings VMCv20160822 Pointing centre float 8 deg -0.9999995e9 pos.eq.ra
ra vmcPointings VMCv20170109 Pointing centre float 8 deg -0.9999995e9 pos.eq.ra
ra vmcPointings VMCv20170411 Pointing centre float 8 deg -0.9999995e9 pos.eq.ra
ra vmcPointings VMCv20171101 Pointing centre float 8 deg -0.9999995e9 pos.eq.ra
ra vmcPointings VMCv20180702 Pointing centre float 8 deg -0.9999995e9 pos.eq.ra
ra vmcPointings VMCv20181120 Pointing centre float 8 deg -0.9999995e9 pos.eq.ra
ra vmcPsfCatalogue VMCDR3 PSF Y,J,Ks average RA centre (main) {catalogue TType keyword: AVERAGE_RA} float 8 deg   pos.eq.ra
ra vmcPsfCatalogue VMCDR4 PSF Y,J,Ks average RA centre (main) {catalogue TType keyword: AVERAGE_RA} float 8 deg   pos.eq.ra;meta.main
ra vmcPsfCatalogue VMCv20121128 PSF Y,J,Ks average RA centre (main) {catalogue TType keyword: AVERAGE_RA} float 8 deg   pos.eq.ra
ra vmcPsfCatalogue VMCv20140428 PSF Y,J,Ks average RA centre (main) {catalogue TType keyword: AVERAGE_RA} float 8 deg   pos.eq.ra
ra vmcPsfCatalogue VMCv20140903 PSF Y,J,Ks average RA centre (main) {catalogue TType keyword: AVERAGE_RA} float 8 deg   pos.eq.ra
ra vmcPsfCatalogue VMCv20150309 PSF Y,J,Ks average RA centre (main) {catalogue TType keyword: AVERAGE_RA} float 8 deg   pos.eq.ra;meta.main
ra vmcPsfCatalogue VMCv20151218 PSF Y,J,Ks average RA centre (main) {catalogue TType keyword: AVERAGE_RA} float 8 deg   pos.eq.ra;meta.main
ra vmcPsfCatalogue VMCv20160311 PSF Y,J,Ks average RA centre (main) {catalogue TType keyword: AVERAGE_RA} float 8 deg   pos.eq.ra;meta.main
ra vmcPsfCatalogue VMCv20160822 PSF Y,J,Ks average RA centre (main) {catalogue TType keyword: AVERAGE_RA} float 8 deg   pos.eq.ra;meta.main
ra vmcPsfCatalogue VMCv20170109 PSF Y,J,Ks average RA centre (main) {catalogue TType keyword: AVERAGE_RA} float 8 deg   pos.eq.ra;meta.main
ra vmcPsfCatalogue VMCv20170411 PSF Y,J,Ks average RA centre (main) {catalogue TType keyword: AVERAGE_RA} float 8 deg   pos.eq.ra;meta.main
ra vmcPsfCatalogue VMCv20171101 PSF Y,J,Ks average RA centre (main) {catalogue TType keyword: AVERAGE_RA} float 8 deg   pos.eq.ra;meta.main
ra vmcPsfDetections VMCv20181120 PSF Y,J,Ks average RA centre (main) {catalogue TType keyword: AVERAGE_RA} float 8 deg   pos.eq.ra;meta.main
ra vmcPsfDetections, vmcPsfSource VMCv20180702 PSF Y,J,Ks average RA centre (main) {catalogue TType keyword: AVERAGE_RA} float 8 deg   pos.eq.ra;meta.main
ra vmcTilePawTDOnly VMCDR1 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vmcTilePawTDOnly VMCDR2 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vmcTilePawTDOnly VMCDR3 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vmcTilePawTDOnly VMCDR4 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vmcTilePawTDOnly VMCv20110816 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vmcTilePawTDOnly VMCv20110909 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vmcTilePawTDOnly VMCv20120126 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vmcTilePawTDOnly VMCv20121128 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vmcTilePawTDOnly VMCv20130304 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vmcTilePawTDOnly VMCv20130805 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vmcTilePawTDOnly VMCv20140428 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vmcTilePawTDOnly VMCv20140903 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vmcTilePawTDOnly VMCv20150309 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vmcTilePawTDOnly VMCv20151218 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vmcTilePawTDOnly VMCv20160311 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vmcTilePawTDOnly VMCv20160822 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vmcTilePawTDOnly VMCv20170109 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vmcTilePawTDOnly VMCv20170411 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vmcTilePawTDOnly VMCv20171101 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vmcTilePawTDOnly VMCv20180702 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vmcTilePawTDOnly VMCv20181120 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vmcVariability VMCDR1 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vmcVariability VMCDR2 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vmcVariability VMCDR3 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vmcVariability VMCDR4 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vmcVariability VMCv20110816 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vmcVariability VMCv20110909 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vmcVariability VMCv20120126 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vmcVariability VMCv20121128 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vmcVariability VMCv20130304 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vmcVariability VMCv20130805 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vmcVariability VMCv20140428 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vmcVariability VMCv20140903 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vmcVariability VMCv20150309 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vmcVariability VMCv20151218 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vmcVariability VMCv20160311 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vmcVariability VMCv20160822 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vmcVariability VMCv20170109 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vmcVariability VMCv20170411 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vmcVariability VMCv20171101 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vmcVariability VMCv20180702 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vmcVariability VMCv20181120 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra vmcVariablesType VMCDR3 Celestial Right Ascension float 8 Degrees   pos.eq.ra
ra vmcVariablesType VMCDR4 Celestial Right Ascension float 8 Degrees   pos.eq.ra
ra vmcVariablesType VMCv20121128 Celestial Right Ascension float 8 Degrees   pos.eq.ra
ra vmcVariablesType VMCv20140428 Celestial Right Ascension float 8 Degrees   pos.eq.ra
ra vmcVariablesType VMCv20140903 Celestial Right Ascension float 8 Degrees   pos.eq.ra
ra vmcVariablesType VMCv20150309 Celestial Right Ascension float 8 Degrees   pos.eq.ra
ra vmcVariablesType VMCv20151218 Celestial Right Ascension float 8 Degrees   pos.eq.ra
ra vmcVariablesType VMCv20160311 Celestial Right Ascension float 8 Degrees   pos.eq.ra
ra vmcVariablesType VMCv20160822 Celestial Right Ascension float 8 Degrees   pos.eq.ra
ra vmcVariablesType VMCv20170109 Celestial Right Ascension float 8 Degrees   pos.eq.ra
ra vmcVariablesType VMCv20170411 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
ra vmcVariablesType VMCv20171101 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
ra vmcVariablesType VMCv20180702 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
ra vmcVariablesType VMCv20181120 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
ra vvvBulgeExtMapCoords EXTINCT Celestial Right Ascension of pixel float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vvvDetection, vvvSource, vvvSynopticSource, vvvTilePawPrints VVVDR4 Celestial Right Ascension float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vvvMergeLog, vvvPsfDaophotJKsMergeLog, vvvPsfDophotZYJHKsMergeLog, vvvSynopticMergeLog, vvvTileSet VVVDR4 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
ra vvvParallaxCatalogue, vvvProperMotionCatalogue VVVDR4 Right Ascension and Declination are products of the astrometric fit, {catalogue TType keyword: ra} float 8   -999999500.0 pos.eq.ra;meta.main
ra vvvPointings VVVDR4 Pointing centre float 8 deg -0.9999995e9 pos.eq.ra
ra vvvPsfDaophotJKsSource VVVDR4 Celestial Right Ascension {catalogue TType keyword: RA} float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vvvPsfDophotZYJHKsSource VVVDR4 Celestial Right Ascension, epoch 1 {catalogue TType keyword: ra} float 8 Degrees   pos.eq.ra;meta.main
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
ra vvvTilePawTDOnly VVVDR4 Celestial Right Ascension float 8 Degrees pos.eq.ra;meta.main
ra vvvVariability VVVDR4 Mean Right Ascension float 8 Degrees   pos.eq.ra;meta.main
The Variability table contains statistics from the set of observations of each source. At present, the mean ra and dec and the error in two tangential directions are calculated. The "ra" direction is defined as tangential to both the radial direction and the cartesian z-axis and the "dec" direction is defined as both the radial direction and the "ra" direction. Since the current model is just the mean and standard deviation of the data, then the chi-squared of the fit=1. Data from good frames across all bands go into the astrometric model determination. This will include bands in non-synoptic filters: the one observation in these bands can help. In future releases a fit will be made to the rms data as a function of magnitude in each band, as has already happened for photometric data and a motion model that incorporates proper motion (and possibly parallax) will be used. The motion model is a parameter in the VarFrameSetInfo table.
ra wiseScosPhotoz, wiseScosPhotozRejects, wiseScosSvm WISExSCOSPZ R.A. (J2000) from WISE {image primary HDU keyword: ra_WISE} float 8 Degrees   pos.eq.ra;meta.main
ra_1 twomass_scn TWOMASS J2000 right ascension of the eastern corner at start of scan. float 8 degrees   pos.eq.ra;meta.main
ra_1 twomass_sixx2_scn TWOMASS right ascension (J2000 decimal deg) of scan corner 1 float 8 deg    
ra_2 twomass_scn TWOMASS J2000 right ascension of the western corner at start of scan. float 8 degrees   pos.eq.ra;meta.main
ra_2 twomass_sixx2_scn TWOMASS right ascension (J2000 decimal deg) of scan corner 2 float 8 deg    
ra_3 twomass_scn TWOMASS J2000 right ascension of the eastern corner at end of scan. float 8 degrees   pos.eq.ra;meta.main
ra_3 twomass_sixx2_scn TWOMASS right ascension (J2000 decimal deg) of scan corner 3 float 8 deg    
ra_4 twomass_scn TWOMASS J2000 right ascension of the western corner at end of scan. float 8 degrees   pos.eq.ra;meta.main
ra_4 twomass_sixx2_scn TWOMASS right ascension (J2000 decimal deg) of scan corner 4 float 8 deg    
ra_dec_corr aux_qso_icrf2_match, gaia_source, tgas_source GAIADR1 Correlation between Right Ascension and Declination real 4     stat.correlation
ra_dec_corr gaia_source GAIADR2 Correlation between Right Ascension and Declination real 4     stat.correlation;pos.eq.ra;pos.eq.dec
ra_deg tycho2 GAIADR1 Observed Tycho2 Right Ascension in ICRS float 8 degrees   pos.eq.ra
ra_epoch igsl_source GAIADR1 Mean Epoch of Right Ascension real 4 years   time.epoch
ra_err glimpse1_hrc, glimpse1_mca, glimpse2_hrc, glimpse2_mca, glimpse_hrc_inter, glimpse_mca_inter GLIMPSE Error in Right Ascension float 8 arcsec   stat.error
ra_error aux_qso_icrf2_match GAIADR1 Uncertainty on celestial Right Ascension float 8 milliarcseconds   stat.error;pos.eq.ra;meta.main
ra_error gaia_source GAIADR2 Standard error of Right Ascension float 8 milliarcsec   stat.error;pos.eq.ra
ra_error gaia_source, tgas_source GAIADR1 Standard error of Right Ascension float 8 milliarcsec   stat.error;pos.eq.ra
ra_error igsl_source GAIADR1 Standard error of Right Ascension real 4 milliarcsec   stat.error;pos.eq.ra
ra_m_deg tycho2 GAIADR1 Mean Right Ascension, ICRS, epoch = J2000 float 8 degrees   pos.eq.ra
ra_parallax_corr gaia_source GAIADR2 Correlation between Right Ascension and parallax real 4     stat.correlation;pos.eq.ra;pos.parallax
ra_parallax_corr gaia_source, tgas_source GAIADR1 Correlation between Right Ascension and parallax real 4     stat.correlation
ra_pm allwise_sc2 WISE Right ascension at epoch MJD=55400.0 (2010.5589) from the profile-fitting measurement model that includes motion. This column is null if the fit failed to converge or was not attempted. NOTE: This will be similar but not identical to the value of ra which is the measured right ascenscion of the source from the non-moving profile-fit. float 8 deg    
ra_pmdec_corr gaia_source GAIADR2 Correlation between Right Ascension and proper motion in Declination real 4     stat.correlation;pos.eq.ra;pos.pm;pos.eq.dec
ra_pmdec_corr gaia_source, tgas_source GAIADR1 Correlation between Right Ascension and proper motion in Declination real 4     stat.correlation
ra_pmra_corr gaia_source GAIADR2 Correlation between Right Ascension and proper motion in Right Ascension real 4     stat.correlation;pos.eq.ra;pos.pm;pos.eq.ra
ra_pmra_corr gaia_source, tgas_source GAIADR1 Correlation between Right Ascension and proper motion in Right Ascension real 4     stat.correlation
RA_R spectra SIXDF observed ra (J2000 degrees) float 8 degrees    
ra_rad hipparcos_new_reduction GAIADR1 Right Ascension in the ICRS at epoch 1991.25 float 8 radians   pos.eq.ra
RA_TGAS ravedr5Source RAVE TGAS Right Ascension (epocflag= 2015) float 8 deg   pos.eq.ra
RA_UNC twoxmm, twoxmm_v1_2, twoxmmi_dr3_v1_0, xmm3dr4 XMM Right Ascension of the source in degrees (J2000) as determined by the SAS task emldetect by fitting a detection simultaneously in all cameras and energy bands. float 8 degrees    
RA_V spectra SIXDF observed ra (J2000 degrees) float 8 degrees    
raB1950 mgcDetection MGC Object right ascension (B1950) float 8 deg    
raBase Multiframe VHSDR1 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VHSDR2 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VHSDR3 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VHSDR4 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VHSv20120926 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VHSv20130417 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VHSv20140409 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VHSv20150108 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VHSv20160114 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VHSv20160507 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VHSv20170630 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VHSv20171207 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VHSv20180419 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VIDEODR2 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VIDEODR3 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VIDEODR4 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VIDEODR5 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VIDEOv20100513 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VIDEOv20111208 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VIKINGDR2 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VIKINGDR3 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VIKINGDR4 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VIKINGv20110714 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VIKINGv20111019 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VIKINGv20130417 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VIKINGv20140402 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VIKINGv20150421 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VIKINGv20151230 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VIKINGv20160406 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VIKINGv20161202 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VIKINGv20170715 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VIKINGv20181012 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VMCDR1 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VMCDR2 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VMCDR3 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VMCDR4 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VMCv20110816 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VMCv20110909 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VMCv20120126 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VMCv20121128 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VMCv20130304 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VMCv20130805 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VMCv20140428 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VMCv20140903 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VMCv20150309 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VMCv20151218 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VMCv20160311 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VMCv20160822 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VMCv20170109 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VMCv20170411 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VMCv20171101 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VMCv20180702 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VMCv20181120 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase Multiframe VVVDR4 Right ascension of base position (J2000) {image primary HDU keyword: RA} float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raBase ultravistaMultiframe, vhsMultiframe, videoMultiframe, vikingMultiframe, vmcMultiframe, vvvMultiframe VSAQC Right ascension of base position (J2000) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raCen vikingZY_selJ_SourceRemeasurement VIKINGZYSELJv20160909 Celestial Right Ascension of centroid float 8 Degrees   pos.eq.ra
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
raCen vikingZY_selJ_SourceRemeasurement VIKINGZYSELJv20170124 Celestial Right Ascension of centroid float 8 Degrees   pos.eq.ra
Celestial Right Ascension as computed in the processing pipeline, accurate to of order 0.1 arcsec.
Note that original catalogue data has only r*4 storage precision, accurate only to ≈ 50mas. RA and Dec in the database are derived more precisely from WCS in the header and x and y attributes.
raCentre StdFieldInfo VIDEOv20100513 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
raCentre StdFieldInfo VIKINGv20110714 Right Ascension of field centre float 8 degrees   pos.eq.ra;meta.main
RAD_20KPC20 mgcGalaxyStruct MGC 1kpc radius at object distance (h=1) real 4 arcsecs 0.000  
RADEC_ERR twoxmm, twoxmm_v1_2, twoxmmi_dr3_v1_0, xmm3dr4 XMM Statistical 1 σ error on the detection position in arcseconds. real 4 arcsec    
raDecSys Multiframe VHSDR1 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VHSDR2 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VHSDR3 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VHSDR4 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VHSv20120926 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VHSv20130417 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VHSv20140409 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VHSv20150108 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VHSv20160114 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VHSv20160507 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VHSv20170630 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VHSv20171207 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VHSv20180419 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VIDEODR2 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VIDEODR3 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VIDEODR4 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VIDEODR5 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VIDEOv20100513 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VIDEOv20111208 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VIKINGDR2 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VIKINGDR3 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VIKINGDR4 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VIKINGv20110714 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VIKINGv20111019 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VIKINGv20130417 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VIKINGv20140402 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VIKINGv20150421 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VIKINGv20151230 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VIKINGv20160406 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VIKINGv20161202 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VIKINGv20170715 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VIKINGv20181012 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VMCDR1 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VMCDR2 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VMCDR3 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VMCDR4 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VMCv20110816 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VMCv20110909 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VMCv20120126 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VMCv20121128 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VMCv20130304 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VMCv20130805 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VMCv20140428 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VMCv20140903 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VMCv20150309 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VMCv20151218 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VMCv20160311 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VMCv20160822 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VMCv20170109 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VMCv20170411 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VMCv20171101 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VMCv20180702 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VMCv20181120 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys Multiframe VVVDR4 Coordinate reference frame {image primary HDU keyword: RADECSYS} varchar 4   NONE  
raDecSys ultravistaMultiframe, vhsMultiframe, videoMultiframe, vikingMultiframe, vmcMultiframe, vvvMultiframe VSAQC Coordinate reference frame varchar 4   NONE  
RAdeg denisDR3Source DENIS Right ascension (J2000) real 4 deg    
RAdeg ravedr5Source RAVE Right Ascension (J2000) float 8 deg   pos.eq.ra
radial_velocity gaia_source GAIADR2 Radial velocity real 4 km/s   spect.dopplerVeloc.opt
radial_velocity_error gaia_source GAIADR2 Standard error on the radial velocity real 4 km/s   stat.error;spect.dopplerVeloc.opt
RADIUS twomass SIXDF 20mag/sq." isophotal K fiducial ell. ap. semi-major axis real 4 arcsec    
radius1 iras_asc IRAS Radius Vector from IRAS Source to Association smallint 2 arcsec   phys.angSize;src
radius_percentile_lower gaia_source GAIADR2 Lower uncertainty on stellar radius real 4 Solar radius   phys.size.radius;stat.min
radius_percentile_upper gaia_source GAIADR2 Upper uncertainty on stellar radius real 4 Solar radius   phys.size.radius;stat.max
radius_val gaia_source GAIADR2 Stellar radius real 4 Solar radius   phys.size.radius
raErr vikingMapRemeasAver VIKINGZYSELJv20160909 Error in averaged Celestial Right Ascension float 8 pixels    
raErr vikingMapRemeasAver VIKINGZYSELJv20170124 Error in averaged Celestial Right Ascension float 8 pixels    
raExtent RequiredMosaic VHSDR1 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VHSDR2 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VHSDR3 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VHSDR4 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VHSv20120926 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VHSv20130417 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VHSv20150108 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VHSv20160114 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VHSv20160507 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VHSv20170630 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VHSv20171207 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VHSv20180419 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VIDEODR2 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VIDEODR3 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VIDEODR4 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VIDEODR5 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VIDEOv20100513 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VIDEOv20111208 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VIKINGDR2 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VIKINGDR3 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VIKINGDR4 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VIKINGv20110714 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VIKINGv20111019 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VIKINGv20130417 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VIKINGv20150421 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VIKINGv20151230 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VIKINGv20160406 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VIKINGv20161202 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VIKINGv20170715 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VIKINGv20181012 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VMCDR1 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VMCDR3 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VMCDR4 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VMCv20110816 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VMCv20110909 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VMCv20120126 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VMCv20121128 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VMCv20130304 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VMCv20130805 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VMCv20140428 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VMCv20140903 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VMCv20150309 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VMCv20151218 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VMCv20160311 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VMCv20160822 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VMCv20170109 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VMCv20170411 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VMCv20171101 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VMCv20180702 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VMCv20181120 The angular extent in RA of the mosaic image real 4 degrees   ??
raExtent RequiredMosaic VVVDR4 The angular extent in RA of the mosaic image real 4 degrees   ??
raHMS ogle3LpvLmcSource, ogle3LpvSmcSource, ogle4CepLmcSource, ogle4CepSmcSource, ogle4RRLyrLmcSource, ogle4RRLyrSmcSource OGLE Right ascension, equinox 2000.0 varchar 12 h:m:s   pos.eq.ra;meta.main
raJ vmcPsfCatalogue VMCDR3 PSF fit RA centre J filter {catalogue TType keyword: RA_J} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.J
raJ vmcPsfCatalogue VMCDR4 PSF fit RA centre J filter {catalogue TType keyword: RA_J} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.J
raJ vmcPsfCatalogue VMCv20121128 PSF fit RA centre J filter {catalogue TType keyword: RA_J} float 8 deg -0.9999995e9 pos.eq.ra
raJ vmcPsfCatalogue VMCv20140428 PSF fit RA centre J filter {catalogue TType keyword: RA_J} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.J
raJ vmcPsfCatalogue VMCv20140903 PSF fit RA centre J filter {catalogue TType keyword: RA_J} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.J
raJ vmcPsfCatalogue VMCv20150309 PSF fit RA centre J filter {catalogue TType keyword: RA_J} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.J
raJ vmcPsfCatalogue VMCv20151218 PSF fit RA centre J filter {catalogue TType keyword: RA_J} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.J
raJ vmcPsfCatalogue VMCv20160311 PSF fit RA centre J filter {catalogue TType keyword: RA_J} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.J
raJ vmcPsfCatalogue VMCv20160822 PSF fit RA centre J filter {catalogue TType keyword: RA_J} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.J
raJ vmcPsfCatalogue VMCv20170109 PSF fit RA centre J filter {catalogue TType keyword: RA_J} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.J
raJ vmcPsfCatalogue VMCv20170411 PSF fit RA centre J filter {catalogue TType keyword: RA_J} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.J
raJ vmcPsfCatalogue VMCv20171101 PSF fit RA centre J filter {catalogue TType keyword: RA_J} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.J
raJ vmcPsfDetections VMCv20181120 PSF fit RA centre J filter {catalogue TType keyword: RA_J} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.J
raJ vmcPsfDetections, vmcPsfSource VMCv20180702 PSF fit RA centre J filter {catalogue TType keyword: RA_J} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.J
raKs vmcPsfCatalogue VMCDR3 PSF fit RA centre Ks filter {catalogue TType keyword: RA_Ks} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.K
raKs vmcPsfCatalogue VMCDR4 PSF fit RA centre Ks filter {catalogue TType keyword: RA_Ks} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.K
raKs vmcPsfCatalogue VMCv20121128 PSF fit RA centre Ks filter {catalogue TType keyword: RA_Ks} float 8 deg -0.9999995e9 pos.eq.ra
raKs vmcPsfCatalogue VMCv20140428 PSF fit RA centre Ks filter {catalogue TType keyword: RA_Ks} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.K
raKs vmcPsfCatalogue VMCv20140903 PSF fit RA centre Ks filter {catalogue TType keyword: RA_Ks} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.K
raKs vmcPsfCatalogue VMCv20150309 PSF fit RA centre Ks filter {catalogue TType keyword: RA_Ks} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.K
raKs vmcPsfCatalogue VMCv20151218 PSF fit RA centre Ks filter {catalogue TType keyword: RA_Ks} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.K
raKs vmcPsfCatalogue VMCv20160311 PSF fit RA centre Ks filter {catalogue TType keyword: RA_Ks} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.K
raKs vmcPsfCatalogue VMCv20160822 PSF fit RA centre Ks filter {catalogue TType keyword: RA_Ks} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.K
raKs vmcPsfCatalogue VMCv20170109 PSF fit RA centre Ks filter {catalogue TType keyword: RA_Ks} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.K
raKs vmcPsfCatalogue VMCv20170411 PSF fit RA centre Ks filter {catalogue TType keyword: RA_Ks} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.K
raKs vmcPsfCatalogue VMCv20171101 PSF fit RA centre Ks filter {catalogue TType keyword: RA_Ks} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.K
raKs vmcPsfDetections VMCv20181120 PSF fit RA centre Ks filter {catalogue TType keyword: RA_Ks} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.K
raKs vmcPsfDetections, vmcPsfSource VMCv20180702 PSF fit RA centre Ks filter {catalogue TType keyword: RA_Ks} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.K
raMoon Multiframe VHSDR1 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VHSDR2 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VHSDR3 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VHSDR4 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VHSv20120926 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VHSv20130417 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VHSv20140409 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VHSv20150108 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VHSv20160114 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VHSv20160507 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VHSv20170630 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VHSv20171207 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VHSv20180419 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VIDEODR2 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VIDEODR3 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VIDEODR4 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VIDEODR5 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VIDEOv20100513 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VIDEOv20111208 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VIKINGDR2 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VIKINGDR3 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VIKINGDR4 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VIKINGv20110714 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VIKINGv20111019 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VIKINGv20130417 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VIKINGv20140402 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VIKINGv20150421 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VIKINGv20151230 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VIKINGv20160406 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VIKINGv20161202 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VIKINGv20170715 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VIKINGv20181012 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VMCDR1 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VMCDR2 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VMCDR3 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VMCDR4 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VMCv20110816 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VMCv20110909 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VMCv20120126 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VMCv20121128 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VMCv20130304 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VMCv20130805 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VMCv20140428 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VMCv20140903 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VMCv20150309 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VMCv20151218 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VMCv20160311 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VMCv20160822 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VMCv20170109 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VMCv20170411 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VMCv20171101 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VMCv20180702 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VMCv20181120 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon Multiframe VVVDR4 Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoon ultravistaMultiframe, vhsMultiframe, videoMultiframe, vikingMultiframe, vmcMultiframe, vvvMultiframe VSAQC Geocentric J2000 FK5 Mean Right ascension of the Moon float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VHSDR1 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VHSDR2 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VHSDR3 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VHSDR4 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VHSv20120926 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VHSv20130417 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VHSv20140409 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VHSv20150108 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VHSv20160114 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VHSv20160507 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VHSv20170630 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VHSv20171207 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VHSv20180419 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VIDEODR2 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VIDEODR3 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VIDEODR4 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VIDEODR5 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VIDEOv20100513 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VIDEOv20111208 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VIKINGDR2 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VIKINGDR3 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VIKINGDR4 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VIKINGv20110714 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VIKINGv20111019 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VIKINGv20130417 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VIKINGv20140402 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VIKINGv20150421 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VIKINGv20151230 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VIKINGv20160406 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VIKINGv20161202 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VIKINGv20170715 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VIKINGv20181012 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VMCDR1 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VMCDR2 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VMCDR3 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VMCDR4 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VMCv20110816 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VMCv20110909 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VMCv20120126 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VMCv20121128 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VMCv20130304 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VMCv20130805 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VMCv20140428 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VMCv20140903 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VMCv20150309 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VMCv20151218 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VMCv20160311 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VMCv20160822 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VMCv20170109 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VMCv20170411 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VMCv20171101 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VMCv20180702 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VMCv20181120 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo Multiframe VVVDR4 Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
raMoonTopo ultravistaMultiframe, vhsMultiframe, videoMultiframe, vikingMultiframe, vmcMultiframe, vvvMultiframe VSAQC Apparent topocentric Right ascension of the Moon (including precession, nutation, and annual aberration) float 8 hours -0.9999995e9 pos.eq.ra;meta.main
random_index gaia_source GAIADR2 Random index used to select subsets bigint 8     meta.code
random_index gaia_source, tgas_source GAIADR1 Random index used to select subsets bigint 8     meta.code
range phot_variable_time_series_g_fov_statistical_parameters GAIADR1 Difference between the highest and lowest magnitude of the G-band time series float 8 mag   phot.mag;arith.diff
rapm vvvParallaxCatalogue, vvvProperMotionCatalogue VVVDR4 RA (cosDec) component of Proper motion {catalogue TType keyword: rapm} float 8 mas/yr -999999500.0  
RAusno denisDR3Source DENIS Right Ascension of USNOA2.0 nearest match real 4 deg    
rauto machoLMCSource, machoSMCSource MACHO red: A-1 robustified measurements over LC autocorrelation (lag=0) coefficient real 4      
RAVE_OBS_ID ravedr5Source RAVE Unique Identifier for RAVE objects, Observation Date, Fieldname, Fibernumber varchar 22     meta.id
RAVEID ravedr5Source RAVE (J2000 GCS), see Note in DR4 varchar 20     meta.id
raY vmcPsfCatalogue VMCDR3 PSF fit RA centre Y filter {catalogue TType keyword: RA_Y} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.NIR
raY vmcPsfCatalogue VMCDR4 PSF fit RA centre Y filter {catalogue TType keyword: RA_Y} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.NIR
raY vmcPsfCatalogue VMCv20121128 PSF fit RA centre Y filter {catalogue TType keyword: RA_Y} float 8 deg -0.9999995e9 pos.eq.ra
raY vmcPsfCatalogue VMCv20140428 PSF fit RA centre Y filter {catalogue TType keyword: RA_Y} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.NIR
raY vmcPsfCatalogue VMCv20140903 PSF fit RA centre Y filter {catalogue TType keyword: RA_Y} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.NIR
raY vmcPsfCatalogue VMCv20150309 PSF fit RA centre Y filter {catalogue TType keyword: RA_Y} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.NIR
raY vmcPsfCatalogue VMCv20151218 PSF fit RA centre Y filter {catalogue TType keyword: RA_Y} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.NIR
raY vmcPsfCatalogue VMCv20160311 PSF fit RA centre Y filter {catalogue TType keyword: RA_Y} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.NIR
raY vmcPsfCatalogue VMCv20160822 PSF fit RA centre Y filter {catalogue TType keyword: RA_Y} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.NIR
raY vmcPsfCatalogue VMCv20170109 PSF fit RA centre Y filter {catalogue TType keyword: RA_Y} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.NIR
raY vmcPsfCatalogue VMCv20170411 PSF fit RA centre Y filter {catalogue TType keyword: RA_Y} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.NIR
raY vmcPsfCatalogue VMCv20171101 PSF fit RA centre Y filter {catalogue TType keyword: RA_Y} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.NIR
raY vmcPsfDetections VMCv20181120 PSF fit RA centre Y filter {catalogue TType keyword: RA_Y} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.NIR
raY vmcPsfDetections, vmcPsfSource VMCv20180702 PSF fit RA centre Y filter {catalogue TType keyword: RA_Y} float 8 deg -0.9999995e9 pos.eq.ra;em.IR.NIR
rbcross machoLMCSource, machoSMCSource MACHO red/blue A-1 robustified measurements over LC cross correlation coefficient [Welch-Stetson; see AJ 105, 1813] real 4      
rCalCorr twompzPhotoz TWOMPZ SuperCOSMOS RgCorMag corrected for Galactic dust extinction. Southern hemisphere [dec(1950)<2.5] have been corrected for a small colour dependent offset between UKST and POSS-II. {image primary HDU keyword: RcalCorr} real 4   -0.9999995e9  
rCalCorr wiseScosPhotoz, wiseScosPhotozRejects, wiseScosSvm WISExSCOSPZ SuperCOSMOS RgCorMag corrected for Galactic dust extinction. Southern hemisphere [dec(1950)<2.5] have been corrected for a small colour dependent offset between UKST and POSS-II. {image primary HDU keyword: Rcc} real 4   -0.9999995e9  
rCalCorrErr twompzPhotoz TWOMPZ Estimated error in R band {image primary HDU keyword: errR} real 4 mag -0.9999995e9  
rCalCorrErr wiseScosSvm WISExSCOSPZ Error on SuperCOSMOS RgCorMag corrected for Galactic dust extinction {image primary HDU keyword: errR} real 4   -0.9999995e9  
rchi2 allwise_sc2 WISE Combined reduced χ2 in all bands for the profile-fit photometry measurement. real 4      
rchi2_pm allwise_sc2 WISE Combined reduced χ2 in all bands for the profile-fit photometry measurement that includes source motion. This column is null if the motion fit failed to converge or was not attempted. real 4      
rchi2r machoLMCSource, machoSMCSource MACHO red: chi^2 per degree of freedom for robustified LC (variable star search) real 4      
rchi2w machoLMCSource, machoSMCSource MACHO red: chi^2 per degree of freedom of fit to "constant flux" hypothesis weighted by flux errors real 4      
rcosmave machoLMCSource, machoSMCSource MACHO red: average of cosmic ray sodophot measure real 4      
rcrdave machoLMCSource, machoSMCSource MACHO red: average of crowding sodophot measure real 4      
rct1 rosat_fsc ROSAT number of nearby RASS detections with distances in range 0'-5' tinyint 1     meta.id
rct2 rosat_fsc ROSAT number of nearby RASS detections with distances in range 5'-10' tinyint 1     meta.id
rct3 rosat_fsc ROSAT number of nearby RASS detections with distances in range 10'-15' tinyint 1     meta.id
rd_flg twomass_psc TWOMASS Read flag. varchar 3     meta.code
rd_flg twomass_sixx2_psc TWOMASS source of JHK "default" mags (AKA "read flag") varchar 3      
rdskyave machoLMCSource, machoSMCSource MACHO red: average of red dsky sodophot measure real 4      
rdskysig machoLMCSource, machoSMCSource MACHO red: sqrt of variance of red dsky sodophot measure real 4      
RE_BULGE_KPC mgcGalaxyStruct MGC Bulge Effective Radius real 4 kpc 99.99  
recipe Multiframe VHSDR1 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VHSDR2 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VHSDR3 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VHSDR4 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VHSv20120926 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VHSv20130417 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VHSv20140409 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VHSv20150108 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VHSv20160114 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VHSv20160507 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VHSv20170630 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VHSv20171207 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VHSv20180419 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VIDEODR2 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VIDEODR3 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VIDEODR4 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VIDEODR5 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VIDEOv20100513 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VIDEOv20111208 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VIKINGDR2 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VIKINGDR3 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VIKINGDR4 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VIKINGv20110714 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VIKINGv20111019 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VIKINGv20130417 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VIKINGv20140402 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VIKINGv20150421 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VIKINGv20151230 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VIKINGv20160406 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VIKINGv20161202 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VIKINGv20170715 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VIKINGv20181012 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VMCDR1 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VMCDR2 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VMCDR3 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VMCDR4 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VMCv20110816 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VMCv20110909 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VMCv20120126 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VMCv20121128 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VMCv20130304 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VMCv20130805 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VMCv20140428 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VMCv20140903 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VMCv20150309 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VMCv20151218 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VMCv20160311 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VMCv20160822 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VMCv20170109 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VMCv20170411 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VMCv20171101 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VMCv20180702 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VMCv20181120 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe Multiframe VVVDR4 Data reduction recipe to be used {image primary HDU keyword: RECIPE} varchar 8   NONE  
recipe ultravistaMultiframe, vhsMultiframe, videoMultiframe, vikingMultiframe, vmcMultiframe, vvvMultiframe VSAQC Data reduction recipe to be used varchar 8   NONE  
RECMAG_R spectra SIXDF magnitude read from R frame real 4 mag    
RECMAG_V spectra SIXDF magnitude read from V frame real 4 mag    
recNo iras_asc IRAS Record Number of source in data file int 4     meta.record
REDMAG grs_ngpSource, grs_ranSource, grs_sgpSource TWODFGRS Not used real 4      
ref_epoch aux_qso_icrf2_match GAIADR1 Reference epoch float 8 Julian years   time.epoch
ref_epoch gaia_source GAIADR2 Reference epoch real 4 Julian years   meta.ref;time.epoch
ref_epoch gaia_source, tgas_source GAIADR1 Reference epoch float 8 Julian years   meta.ref;time.epoch
REFCAT xmm3dr4 XMM An integer code reflecting the absolute astrometric reference catalogue which gave the statistically 'best' result for the field rectification process (from which the corrections are taken). It is 1 for the USNO B1.0 catalogue, 2 for 2MASS and 3 for SDSS (DR8). Where catcorr fails to produce a reliable solution, REFCAT is a negative number, indicating the cause of the failure. The failure codes are -1 = Too few matches (< 10), -2 = poor fit (goodness of fit parameter in catcorr < 5.0), -3 = error on the field positional rectification correction is > 0.75 arcseconds) smallint 2      
refDecShift01 CurrentAstrometry VHSDR1 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VHSDR2 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VHSDR3 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VHSDR4 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VHSv20120926 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VHSv20130417 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VHSv20140409 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VHSv20150108 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VHSv20160114 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VHSv20160507 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VHSv20170630 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VHSv20171207 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VHSv20180419 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VIDEODR2 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VIDEODR3 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VIDEODR4 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VIDEODR5 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VIDEOv20111208 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VIKINGDR2 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VIKINGDR3 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VIKINGDR4 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VIKINGv20110714 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VIKINGv20111019 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VIKINGv20130417 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VIKINGv20140402 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VIKINGv20150421 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VIKINGv20151230 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VIKINGv20160406 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VIKINGv20161202 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VIKINGv20170715 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VIKINGv20181012 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VMCDR1 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VMCDR2 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VMCDR3 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VMCDR4 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VMCv20110816 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VMCv20110909 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VMCv20120126 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VMCv20121128 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VMCv20130304 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VMCv20130805 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VMCv20140428 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VMCv20140903 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VMCv20150309 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VMCv20151218 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VMCv20160311 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VMCv20160822 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VMCv20170109 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VMCv20170411 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VMCv20171101 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VMCv20180702 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VMCv20181120 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 CurrentAstrometry VVVDR4 Ref Dec shift pass 0 to 1 (new - old) {image extension keyword: DECZP01} float 8 arcsec -0.9999995e9 ??
refDecShift01 ultravistaCurrentAstrometry, vhsCurrentAstrometry, videoCurrentAstrometry, vikingCurrentAstrometry, vmcCurrentAstrometry, vvvCurrentAstrometry VSAQC Ref Dec shift pass 0 to 1 (new - old) float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VHSDR1 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VHSDR2 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VHSDR3 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VHSDR4 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VHSv20120926 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VHSv20130417 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VHSv20140409 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VHSv20150108 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VHSv20160114 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VHSv20160507 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VHSv20170630 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VHSv20171207 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VHSv20180419 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VIDEODR2 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VIDEODR3 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VIDEODR4 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VIDEODR5 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VIDEOv20100513 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VIDEOv20111208 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VIKINGDR2 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VIKINGDR3 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VIKINGDR4 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VIKINGv20110714 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VIKINGv20111019 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VIKINGv20130417 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VIKINGv20140402 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VIKINGv20150421 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VIKINGv20151230 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VIKINGv20160406 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VIKINGv20161202 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VIKINGv20170715 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VIKINGv20181012 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VMCDR1 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VMCDR2 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VMCDR3 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VMCDR4 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VMCv20110816 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VMCv20110909 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VMCv20120126 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VMCv20121128 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VMCv20130304 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VMCv20130805 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VMCv20140428 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VMCv20140903 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VMCv20150309 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VMCv20151218 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VMCv20160311 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VMCv20160822 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VMCv20170109 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VMCv20170411 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VMCv20171101 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VMCv20180702 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VMCv20181120 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 CurrentAstrometry VVVDR4 Ref Dec shift pass 0 to 2 (new - old) {image extension keyword: DECZP02} float 8 arcsec -0.9999995e9 ??
refDecShift02 ultravistaCurrentAstrometry, vhsCurrentAstrometry, videoCurrentAstrometry, vikingCurrentAstrometry, vmcCurrentAstrometry, vvvCurrentAstrometry VSAQC Ref Dec shift pass 0 to 2 (new - old) float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VHSDR1 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VHSDR2 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VHSDR3 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VHSDR4 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VHSv20120926 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VHSv20130417 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VHSv20140409 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VHSv20150108 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VHSv20160114 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VHSv20160507 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VHSv20170630 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VHSv20171207 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VHSv20180419 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VIDEODR2 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VIDEODR3 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VIDEODR4 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VIDEODR5 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VIDEOv20111208 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VIKINGDR2 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VIKINGDR3 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VIKINGDR4 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VIKINGv20110714 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VIKINGv20111019 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VIKINGv20130417 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VIKINGv20140402 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VIKINGv20150421 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VIKINGv20151230 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VIKINGv20160406 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VIKINGv20161202 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VIKINGv20170715 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VIKINGv20181012 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VMCDR1 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VMCDR2 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VMCDR3 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VMCDR4 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VMCv20110816 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VMCv20110909 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VMCv20120126 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VMCv20121128 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VMCv20130304 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VMCv20130805 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VMCv20140428 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VMCv20140903 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VMCv20150309 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VMCv20151218 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VMCv20160311 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VMCv20160822 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VMCv20170109 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VMCv20170411 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VMCv20171101 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VMCv20180702 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VMCv20181120 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 CurrentAstrometry VVVDR4 Ref Dec shift pass 1 to 2 (new - old) {image extension keyword: DECZP12} float 8 arcsec -0.9999995e9 ??
refDecShift12 ultravistaCurrentAstrometry, vhsCurrentAstrometry, videoCurrentAstrometry, vikingCurrentAstrometry, vmcCurrentAstrometry, vvvCurrentAstrometry VSAQC Ref Dec shift pass 1 to 2 (new - old) float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VHSDR1 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VHSDR2 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VHSDR3 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VHSDR4 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VHSv20120926 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VHSv20130417 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VHSv20140409 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VHSv20150108 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VHSv20160114 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VHSv20160507 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VHSv20170630 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VHSv20171207 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VHSv20180419 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VIDEODR2 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VIDEODR3 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VIDEODR4 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VIDEODR5 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VIDEOv20111208 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VIKINGDR2 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VIKINGDR3 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VIKINGDR4 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VIKINGv20110714 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VIKINGv20111019 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VIKINGv20130417 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VIKINGv20140402 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VIKINGv20150421 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VIKINGv20151230 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VIKINGv20160406 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VIKINGv20161202 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VIKINGv20170715 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VIKINGv20181012 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VMCDR1 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VMCDR2 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VMCDR3 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VMCDR4 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VMCv20110816 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VMCv20110909 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VMCv20120126 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VMCv20121128 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VMCv20130304 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VMCv20130805 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VMCv20140428 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VMCv20140903 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VMCv20150309 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VMCv20151218 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VMCv20160311 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VMCv20160822 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VMCv20170109 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VMCv20170411 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VMCv20171101 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VMCv20180702 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VMCv20181120 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 CurrentAstrometry VVVDR4 Ref Dec shift pass 2 to 2 (new - old) {image extension keyword: DECZP22} float 8 arcsec -0.9999995e9 ??
refDecShift22 ultravistaCurrentAstrometry, vhsCurrentAstrometry, videoCurrentAstrometry, vikingCurrentAstrometry, vmcCurrentAstrometry, vvvCurrentAstrometry VSAQC Ref Dec shift pass 2 to 2 (new - old) float 8 arcsec -0.9999995e9 ??
reference ExternalProduct VHSDR3 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VHSDR4 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VHSv20150108 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VHSv20160114 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VHSv20160507 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VHSv20170630 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VHSv20171207 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VHSv20180419 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VIDEODR4 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VIDEODR5 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VIKINGDR4 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VIKINGv20150421 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VIKINGv20151230 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VIKINGv20160406 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VIKINGv20161202 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VIKINGv20170715 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VIKINGv20181012 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VMCDR3 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VMCDR4 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VMCv20140428 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VMCv20140903 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VMCv20150309 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VMCv20151218 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VMCv20160311 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VMCv20160822 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VMCv20170109 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VMCv20170411 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VMCv20171101 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VMCv20180702 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VMCv20181120 Reference paper describing the data varchar 64   NONE  
reference ExternalProduct VVVDR4 Reference paper describing the data varchar 64   NONE  
reference Programme VHSDR1 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VHSDR2 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VHSDR3 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VHSDR4 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VHSv20120926 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VHSv20130417 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VHSv20150108 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VHSv20160114 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VHSv20160507 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VHSv20170630 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VHSv20171207 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VHSv20180419 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VIDEODR2 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VIDEODR3 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VIDEODR4 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VIDEODR5 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VIDEOv20100513 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VIDEOv20111208 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VIKINGDR2 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VIKINGDR3 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VIKINGDR4 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VIKINGv20110714 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VIKINGv20111019 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VIKINGv20130417 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VIKINGv20150421 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VIKINGv20151230 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VIKINGv20160406 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VIKINGv20161202 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VIKINGv20170715 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VIKINGv20181012 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VMCDR1 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VMCDR3 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VMCDR4 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VMCv20110816 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VMCv20110909 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VMCv20120126 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VMCv20121128 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VMCv20130304 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VMCv20130805 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VMCv20140428 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VMCv20140903 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VMCv20150309 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VMCv20151218 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VMCv20160311 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VMCv20160822 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VMCv20170109 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VMCv20170411 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VMCv20171101 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VMCv20180702 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VMCv20181120 a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VSAQC a web reference (URL) for the programme varchar 256     meta.bib
reference Programme VVVDR4 a web reference (URL) for the programme varchar 256     meta.bib
reference ThreeDimExtinctionMaps EXTINCT Reference of paper which describes the map. varchar 16   NONE  
refRaShift01 CurrentAstrometry VHSDR1 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VHSDR2 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VHSDR3 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VHSDR4 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VHSv20120926 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VHSv20130417 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VHSv20140409 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VHSv20150108 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VHSv20160114 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VHSv20160507 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VHSv20170630 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VHSv20171207 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VHSv20180419 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VIDEODR2 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VIDEODR3 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VIDEODR4 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VIDEODR5 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VIDEOv20111208 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VIKINGDR2 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VIKINGDR3 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VIKINGDR4 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VIKINGv20110714 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VIKINGv20111019 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VIKINGv20130417 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VIKINGv20140402 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VIKINGv20150421 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VIKINGv20151230 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VIKINGv20160406 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VIKINGv20161202 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VIKINGv20170715 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VIKINGv20181012 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VMCDR1 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VMCDR2 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VMCDR3 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VMCDR4 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VMCv20110816 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VMCv20110909 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VMCv20120126 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VMCv20121128 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VMCv20130304 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VMCv20130805 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VMCv20140428 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VMCv20140903 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VMCv20150309 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VMCv20151218 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VMCv20160311 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VMCv20160822 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VMCv20170109 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VMCv20170411 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VMCv20171101 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VMCv20180702 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VMCv20181120 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 CurrentAstrometry VVVDR4 Ref RA shift pass 0 to 1 (new - old) {image extension keyword: RAZP01} float 8 arcsec -0.9999995e9 ??
refRaShift01 ultravistaCurrentAstrometry, vhsCurrentAstrometry, videoCurrentAstrometry, vikingCurrentAstrometry, vmcCurrentAstrometry, vvvCurrentAstrometry VSAQC Ref RA shift pass 0 to 1 (new - old) float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VHSDR1 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VHSDR2 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VHSDR3 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VHSDR4 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VHSv20120926 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VHSv20130417 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VHSv20140409 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VHSv20150108 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VHSv20160114 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VHSv20160507 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VHSv20170630 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VHSv20171207 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VHSv20180419 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VIDEODR2 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VIDEODR3 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VIDEODR4 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VIDEODR5 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VIDEOv20100513 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VIDEOv20111208 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VIKINGDR2 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VIKINGDR3 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VIKINGDR4 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VIKINGv20110714 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VIKINGv20111019 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VIKINGv20130417 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VIKINGv20140402 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VIKINGv20150421 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VIKINGv20151230 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VIKINGv20160406 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VIKINGv20161202 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VIKINGv20170715 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VIKINGv20181012 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VMCDR1 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VMCDR2 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VMCDR3 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VMCDR4 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VMCv20110816 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VMCv20110909 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VMCv20120126 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VMCv20121128 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VMCv20130304 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VMCv20130805 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VMCv20140428 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VMCv20140903 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VMCv20150309 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VMCv20151218 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VMCv20160311 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VMCv20160822 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VMCv20170109 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VMCv20170411 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VMCv20171101 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VMCv20180702 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VMCv20181120 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 CurrentAstrometry VVVDR4 Ref RA shift pass 0 to 2 (new - old) {image extension keyword: RAZP02} float 8 arcsec -0.9999995e9 ??
refRaShift02 ultravistaCurrentAstrometry, vhsCurrentAstrometry, videoCurrentAstrometry, vikingCurrentAstrometry, vmcCurrentAstrometry, vvvCurrentAstrometry VSAQC Ref RA shift pass 0 to 2 (new - old) float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VHSDR1 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VHSDR2 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VHSDR3 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VHSDR4 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VHSv20120926 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VHSv20130417 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VHSv20140409 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VHSv20150108 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VHSv20160114 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VHSv20160507 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VHSv20170630 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VHSv20171207 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VHSv20180419 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VIDEODR2 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VIDEODR3 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VIDEODR4 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VIDEODR5 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VIDEOv20111208 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VIKINGDR2 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VIKINGDR3 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VIKINGDR4 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VIKINGv20110714 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VIKINGv20111019 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VIKINGv20130417 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VIKINGv20140402 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VIKINGv20150421 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VIKINGv20151230 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VIKINGv20160406 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VIKINGv20161202 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VIKINGv20170715 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VIKINGv20181012 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VMCDR1 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VMCDR2 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VMCDR3 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VMCDR4 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VMCv20110816 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VMCv20110909 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VMCv20120126 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VMCv20121128 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VMCv20130304 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VMCv20130805 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VMCv20140428 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VMCv20140903 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VMCv20150309 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VMCv20151218 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VMCv20160311 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VMCv20160822 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VMCv20170109 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VMCv20170411 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VMCv20171101 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VMCv20180702 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VMCv20181120 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 CurrentAstrometry VVVDR4 Ref RA shift pass 1 to 2 (new - old) {image extension keyword: RAZP12} float 8 arcsec -0.9999995e9 ??
refRaShift12 ultravistaCurrentAstrometry, vhsCurrentAstrometry, videoCurrentAstrometry, vikingCurrentAstrometry, vmcCurrentAstrometry, vvvCurrentAstrometry VSAQC Ref RA shift pass 1 to 2 (new - old) float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VHSDR1 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VHSDR2 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VHSDR3 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VHSDR4 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VHSv20120926 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VHSv20130417 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VHSv20140409 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VHSv20150108 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VHSv20160114 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VHSv20160507 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VHSv20170630 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VHSv20171207 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VHSv20180419 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VIDEODR2 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VIDEODR3 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VIDEODR4 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VIDEODR5 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VIDEOv20111208 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VIKINGDR2 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VIKINGDR3 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VIKINGDR4 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VIKINGv20110714 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VIKINGv20111019 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VIKINGv20130417 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VIKINGv20140402 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VIKINGv20150421 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VIKINGv20151230 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VIKINGv20160406 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VIKINGv20161202 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VIKINGv20170715 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VIKINGv20181012 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VMCDR1 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VMCDR2 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VMCDR3 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VMCDR4 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VMCv20110816 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VMCv20110909 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VMCv20120126 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VMCv20121128 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VMCv20130304 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VMCv20130805 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VMCv20140428 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VMCv20140903 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VMCv20150309 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VMCv20151218 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VMCv20160311 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VMCv20160822 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VMCv20170109 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VMCv20170411 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VMCv20171101 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VMCv20180702 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VMCv20181120 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 CurrentAstrometry VVVDR4 Ref RA shift pass 2 to 2 (new - old) {image extension keyword: RAZP22} float 8 arcsec -0.9999995e9 ??
refRaShift22 ultravistaCurrentAstrometry, vhsCurrentAstrometry, videoCurrentAstrometry, vikingCurrentAstrometry, vmcCurrentAstrometry, vvvCurrentAstrometry VSAQC Ref RA shift pass 2 to 2 (new - old) float 8 arcsec -0.9999995e9 ??
rejected_by_variability_processing phot_variable_time_series_g_fov GAIADR1 True when this FoV observation was excluded from the variability analysis bit 1     meta.code
rel allwise_sc2 WISE Small-separation, same-Tile (SSST) detection flag. Non-null values of this flag indicate that this Catalog/Reject Table entry is part of a group of detections with unphysically small separations that were extracted on the same Tile. SSST groups occurred when a faint, often spurious noise detection was shifted towards the position of a brighter nearby source during the chi-squared minimization profile-fit source extraction process. This resulted in two or more extractions on the same Tile that have nearly the same position and similar fluxes. SSST groups were identified and classified using the rel flag, and the classifications are used as part of Catalog source selection. varchar 1      
The possible values of the rel column are:
  • null - The extraction is not part of a SSST group, and is eligible for the AllWISE Catalog.
  • s - The extraction is part of an SSST group, and is the original, correct extraction that is eligible for the AllWISE Catalog.
  • c - The extraction is part of an SSST group amd is the original, correct extraction, but is inadvertantly flagged as a spurious artifact. It is eligible for inclusion in the AllWISE Catalog.
  • r - The extraction is part of an SSST group, but is the least reliable extraction in the group. It is not eligible for the Catalog. These are found only in the AllWISE Reject Table.
rel twomass_sixx2_psc, twomass_sixx2_xsc TWOMASS Reliability flag (A-F), with A being the highest and F being lowest reliability varchar 1      
rel0 twomass_scn TWOMASS Flag indicating whether the scan is contained in the TWOMASS Sampler Release. smallint 2     meta.code
rel1 twomass_scn TWOMASS Flag indicating whether the scan is contained in the TWOMASS First Incremental Data Release (IDR1). smallint 2     meta.code
rel2 twomass_scn TWOMASS Flag indicating whether the scan is contained in the TWOMASS Second Incremental Data Release (IDR2). smallint 2     meta.code
releaseDate Release VHSDR1 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VHSDR2 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VHSDR3 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VHSDR4 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VHSv20120926 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VHSv20130417 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VHSv20150108 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VHSv20160114 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VHSv20160507 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VHSv20170630 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VHSv20171207 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VHSv20180419 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VIDEODR2 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VIDEODR3 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VIDEODR4 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VIDEODR5 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VIDEOv20100513 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VIDEOv20111208 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VIKINGDR2 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VIKINGDR3 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VIKINGDR4 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VIKINGZYSELJv20160909 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VIKINGZYSELJv20170124 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VIKINGv20110714 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VIKINGv20111019 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VIKINGv20130417 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VIKINGv20150421 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VIKINGv20151230 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VIKINGv20160406 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VIKINGv20161202 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VIKINGv20170715 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VIKINGv20181012 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VMCDR1 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VMCDR3 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VMCDR4 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VMCv20110816 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VMCv20110909 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VMCv20120126 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VMCv20121128 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VMCv20130304 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VMCv20130805 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VMCv20140428 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VMCv20140903 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VMCv20150309 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VMCv20151218 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VMCv20160311 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VMCv20160822 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VMCv20170109 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VMCv20170411 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VMCv20171101 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VMCv20180702 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VMCv20181120 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseDate Release VVVDR4 the release date datetime 8 MM-DD-YYYY 12-31-9999 time.epoch
releaseNum EpochFrameStatus VHSv20160507 Release number of deep stack frame (or intermediate stack if used as a deep stack). {image primary HDU keyword: RELNUM} smallint 2   -9999  
releaseNum EpochFrameStatus VHSv20170630 Release number of deep stack frame (or intermediate stack if used as a deep stack). {image primary HDU keyword: RELNUM} smallint 2   -9999  
releaseNum EpochFrameStatus VHSv20171207 Release number of deep stack frame (or intermediate stack if used as a deep stack). {image primary HDU keyword: RELNUM} smallint 2   -9999  
releaseNum EpochFrameStatus VHSv20180419 Release number of deep stack frame (or intermediate stack if used as a deep stack). {image primary HDU keyword: RELNUM} smallint 2   -9999  
releaseNum EpochFrameStatus VIKINGv20151230 Release number of deep stack frame (or intermediate stack if used as a deep stack). {image primary HDU keyword: RELNUM} smallint 2   -9999  
releaseNum EpochFrameStatus VIKINGv20160406 Release number of deep stack frame (or intermediate stack if used as a deep stack). {image primary HDU keyword: RELNUM} smallint 2   -9999  
releaseNum EpochFrameStatus VIKINGv20161202 Release number of deep stack frame (or intermediate stack if used as a deep stack). {image primary HDU keyword: RELNUM} smallint 2   -9999  
releaseNum EpochFrameStatus VIKINGv20170715 Release number of deep stack frame (or intermediate stack if used as a deep stack). {image primary HDU keyword: RELNUM} smallint 2   -9999  
releaseNum EpochFrameStatus VIKINGv20181012 Release number of deep stack frame (or intermediate stack if used as a deep stack). {image primary HDU keyword: RELNUM} smallint 2   -9999  
releaseNum EpochFrameStatus VMCDR4 Release number of deep stack frame (or intermediate stack if used as a deep stack). {image primary HDU keyword: RELNUM} smallint 2   -9999  
releaseNum EpochFrameStatus VMCv20151218 Release number of deep stack frame (or intermediate stack if used as a deep stack). {image primary HDU keyword: RELNUM} smallint 2   -9999  
releaseNum EpochFrameStatus VMCv20160311 Release number of deep stack frame (or intermediate stack if used as a deep stack). {image primary HDU keyword: RELNUM} smallint 2   -9999  
releaseNum EpochFrameStatus VMCv20160822 Release number of deep stack frame (or intermediate stack if used as a deep stack). {image primary HDU keyword: RELNUM} smallint 2   -9999  
releaseNum EpochFrameStatus VMCv20170109 Release number of deep stack frame (or intermediate stack if used as a deep stack). {image primary HDU keyword: RELNUM} smallint 2   -9999  
releaseNum EpochFrameStatus VMCv20170411 Release number of deep stack frame (or intermediate stack if used as a deep stack). {image primary HDU keyword: RELNUM} smallint 2   -9999  
releaseNum EpochFrameStatus VMCv20171101 Release number of deep stack frame (or intermediate stack if used as a deep stack). {image primary HDU keyword: RELNUM} smallint 2   -9999  
releaseNum EpochFrameStatus VMCv20180702 Release number of deep stack frame (or intermediate stack if used as a deep stack). {image primary HDU keyword: RELNUM} smallint 2   -9999  
releaseNum EpochFrameStatus VMCv20181120 Release number of deep stack frame (or intermediate stack if used as a deep stack). {image primary HDU keyword: RELNUM} smallint 2   -9999  
releaseNum EpochFrameStatus VVVDR4 Release number of deep stack frame (or intermediate stack if used as a deep stack). {image primary HDU keyword: RELNUM} smallint 2   -9999  
releaseNum EpochFrameStatus, ProgrammeFrame VHSv20160114 Release number of deep stack frame (or intermediate stack if used as a deep stack). {image primary HDU keyword: RELNUM} smallint 2   -9999  
releaseNum ExternalProduct VHSDR3 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VHSDR4 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VHSv20150108 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VHSv20160114 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VHSv20160507 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VHSv20170630 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VHSv20171207 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VHSv20180419 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VIDEODR4 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VIDEODR5 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VIDEOv20111208 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VIKINGDR4 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VIKINGv20150421 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VIKINGv20151230 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VIKINGv20160406 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VIKINGv20161202 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VIKINGv20170715 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VIKINGv20181012 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VMCDR3 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VMCDR4 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VMCv20140428 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VMCv20140903 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VMCv20150309 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VMCv20151218 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VMCv20160311 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VMCv20160822 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VMCv20170109 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VMCv20170411 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VMCv20171101 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VMCv20180702 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VMCv20181120 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum ExternalProduct VVVDR4 Release number of deep stack frame (or intermediate stack if used as a deep stack). smallint 2   -9999  
releaseNum Release VHSDR1 the release number smallint 2     meta.software
releaseNum Release VHSDR2 the release number smallint 2     meta.software
releaseNum Release VHSDR3 the release number smallint 2     meta.software
releaseNum Release VHSDR4 the release number smallint 2     meta.software
releaseNum Release VHSv20120926 the release number smallint 2     meta.software
releaseNum Release VHSv20130417 the release number smallint 2     meta.software
releaseNum Release VHSv20150108 the release number smallint 2     meta.software
releaseNum Release VHSv20160114 the release number smallint 2     meta.software
releaseNum Release VHSv20160507 the release number smallint 2     meta.software
releaseNum Release VHSv20170630 the release number smallint 2     meta.software
releaseNum Release VHSv20171207 the release number smallint 2     meta.software
releaseNum Release VHSv20180419 the release number smallint 2     meta.software
releaseNum Release VIDEODR2 the release number smallint 2     meta.software
releaseNum Release VIDEODR3 the release number smallint 2     meta.software
releaseNum Release VIDEODR4 the release number smallint 2     meta.software
releaseNum Release VIDEODR5 the release number smallint 2     meta.software
releaseNum Release VIDEOv20100513 the release number smallint 2     meta.software
releaseNum Release VIDEOv20111208 the release number smallint 2     meta.software
releaseNum Release VIKINGDR2 the release number smallint 2     meta.software
releaseNum Release VIKINGDR3 the release number smallint 2     meta.software
releaseNum Release VIKINGDR4 the release number smallint 2     meta.software
releaseNum Release VIKINGZYSELJv20160909 the release number smallint 2     meta.software
releaseNum Release VIKINGZYSELJv20170124 the release number smallint 2     meta.software
releaseNum Release VIKINGv20110714 the release number smallint 2     meta.software
releaseNum Release VIKINGv20111019 the release number smallint 2     meta.software
releaseNum Release VIKINGv20130417 the release number smallint 2     meta.software
releaseNum Release VIKINGv20150421 the release number smallint 2     meta.software
releaseNum Release VIKINGv20151230 the release number smallint 2     meta.software
releaseNum Release VIKINGv20160406 the release number smallint 2     meta.software
releaseNum Release VIKINGv20161202 the release number smallint 2     meta.software
releaseNum Release VIKINGv20170715 the release number smallint 2     meta.software
releaseNum Release VIKINGv20181012 the release number smallint 2     meta.software
releaseNum Release VMCDR1 the release number smallint 2     meta.software
releaseNum Release VMCDR3 the release number smallint 2     meta.software
releaseNum Release VMCDR4 the release number smallint 2     meta.software
releaseNum Release VMCv20110816 the release number smallint 2     meta.software
releaseNum Release VMCv20110909 the release number smallint 2     meta.software
releaseNum Release VMCv20120126 the release number smallint 2     meta.software
releaseNum Release VMCv20121128 the release number smallint 2     meta.software
releaseNum Release VMCv20130304 the release number smallint 2     meta.software
releaseNum Release VMCv20130805 the release number smallint 2     meta.software
releaseNum Release VMCv20140428 the release number smallint 2     meta.software
releaseNum Release VMCv20140903 the release number smallint 2     meta.software
releaseNum Release VMCv20150309 the release number smallint 2     meta.software
releaseNum Release VMCv20151218 the release number smallint 2     meta.software
releaseNum Release VMCv20160311 the release number smallint 2     meta.software
releaseNum Release VMCv20160822 the release number smallint 2     meta.software
releaseNum Release VMCv20170109 the release number smallint 2     meta.software
releaseNum Release VMCv20170411 the release number smallint 2     meta.software
releaseNum Release VMCv20171101 the release number smallint 2     meta.software
releaseNum Release VMCv20180702 the release number smallint 2     meta.software
releaseNum Release VMCv20181120 the release number smallint 2     meta.software
releaseNum Release VVVDR4 the release number smallint 2     meta.software
reliable vvvProperMotionCatalogue VVVDR4 reliability flag, '1' indicates that this source is expected to be reliably measured. This is a combination of dets>=2, dets=pawprintdets, and no pm error flags in any pawprint sets (n_epmf_0=dets). {catalogue TType keyword: reliable} int 4   -99999999  
relUnc_100 iras_psc IRAS percent relative 100 micron flux density uncertainties. smallint 2     stat.error
relUnc_12 iras_psc IRAS percent relative 12 micron flux density uncertainties. smallint 2     stat.error
relUnc_25 iras_psc IRAS percent relative 25 micron flux density uncertainties. smallint 2     stat.error
relUnc_60 iras_psc IRAS percent relative 60 micron flux density uncertainties. smallint 2     stat.error
remeasID vikingZY_selJ_SourceRemeasurement VIKINGZYSELJv20160909 UID of this source remeasurement bigint 8     meta_id;meta_main
remeasID vikingZY_selJ_SourceRemeasurement VIKINGZYSELJv20170124 UID of this source remeasurement bigint 8     meta_id;meta_main
remeasTable RequiredListDrivenProduct VHSv20130417 the name of the Source Remeasurement table for this list and programme varchar 256   NONE meta.id;meta.dataset
remeasTable RequiredListDrivenProduct VIKINGv20130417 the name of the Source Remeasurement table for this list and programme varchar 256   NONE meta.id;meta.dataset
remeasTable RequiredListDrivenProduct VMCv20130805 the name of the Source Remeasurement table for this list and programme varchar 256   NONE meta.id;meta.dataset
rep vvvPsfDaophotJKsSource VVVDR4 Information value, detailing the number of detection instances the entry originates from (counting stacked pawprint tiles, and later tile combinations). May have values of 0 up to 12 {catalogue TType keyword: rep} int 4     meta.number
Rep_Flag ravedr5Source RAVE 0 => single observation, 1 => more than one observation tinyint 1     meta.code.qual
reqMaxAirmass Multiframe VHSDR1 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VHSDR2 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VHSDR3 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VHSDR4 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VHSv20120926 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VHSv20130417 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VHSv20140409 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VHSv20150108 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VHSv20160114 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VHSv20160507 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VHSv20170630 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VHSv20171207 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VHSv20180419 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VIDEODR2 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VIDEODR3 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VIDEODR4 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VIDEODR5 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VIDEOv20111208 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VIKINGDR2 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VIKINGDR3 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VIKINGDR4 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VIKINGv20110714 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VIKINGv20111019 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VIKINGv20130417 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VIKINGv20140402 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VIKINGv20150421 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VIKINGv20151230 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VIKINGv20160406 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VIKINGv20161202 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VIKINGv20170715 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VIKINGv20181012 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VMCDR1 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VMCDR2 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VMCDR3 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VMCDR4 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VMCv20110816 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VMCv20110909 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VMCv20120126 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VMCv20121128 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VMCv20130304 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VMCv20130805 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VMCv20140428 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VMCv20140903 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VMCv20150309 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VMCv20151218 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VMCv20160311 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VMCv20160822 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VMCv20170109 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VMCv20170411 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VMCv20171101 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VMCv20180702 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VMCv20181120 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass Multiframe VVVDR4 Requested maximum airmass {image primary HDU keyword: HIERARCH ESO OBS AIRM} real 4   -0.9999995e9  
reqMaxAirmass ultravistaMultiframe, vhsMultiframe, videoMultiframe, vikingMultiframe, vmcMultiframe, vvvMultiframe VSAQC Requested maximum airmass real 4   -0.9999995e9  
reqMaxSeeing Multiframe VHSDR1 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VHSDR2 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VHSDR3 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VHSDR4 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VHSv20120926 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VHSv20130417 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VHSv20140409 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VHSv20150108 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VHSv20160114 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VHSv20160507 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VHSv20170630 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VHSv20171207 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VHSv20180419 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VIDEODR2 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VIDEODR3 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VIDEODR4 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VIDEODR5 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VIDEOv20111208 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VIKINGDR2 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VIKINGDR3 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VIKINGDR4 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VIKINGv20110714 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VIKINGv20111019 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VIKINGv20130417 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VIKINGv20140402 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VIKINGv20150421 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VIKINGv20151230 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VIKINGv20160406 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VIKINGv20161202 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VIKINGv20170715 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VIKINGv20181012 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VMCDR1 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VMCDR2 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VMCDR3 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VMCDR4 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VMCv20110816 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VMCv20110909 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VMCv20120126 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VMCv20121128 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VMCv20130304 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VMCv20130805 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VMCv20140428 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VMCv20140903 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VMCv20150309 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VMCv20151218 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VMCv20160311 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VMCv20160822 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VMCv20170109 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VMCv20170411 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VMCv20171101 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VMCv20180702 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VMCv20181120 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing Multiframe VVVDR4 Requested maximum seeing {image primary HDU keyword: HIERARCH ESO OBS AMBI FWHM} real 4   -0.9999995e9  
reqMaxSeeing ultravistaMultiframe, vhsMultiframe, videoMultiframe, vikingMultiframe, vmcMultiframe, vvvMultiframe VSAQC Requested maximum seeing real 4   -0.9999995e9  
reqSkyTrans Multiframe VHSDR1 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VHSDR2 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VHSDR3 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VHSDR4 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VHSv20120926 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VHSv20130417 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VHSv20140409 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VHSv20150108 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VHSv20160114 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VHSv20160507 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VHSv20170630 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VHSv20171207 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VHSv20180419 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VIDEODR2 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VIDEODR3 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VIDEODR4 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VIDEODR5 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VIDEOv20111208 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VIKINGDR2 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VIKINGDR3 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VIKINGDR4 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VIKINGv20110714 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VIKINGv20111019 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VIKINGv20130417 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VIKINGv20140402 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VIKINGv20150421 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VIKINGv20151230 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VIKINGv20160406 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VIKINGv20161202 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VIKINGv20170715 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VIKINGv20181012 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VMCDR1 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VMCDR2 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VMCDR3 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VMCDR4 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VMCv20110816 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VMCv20110909 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VMCv20120126 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VMCv20121128 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VMCv20130304 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VMCv20130805 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VMCv20140428 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VMCv20140903 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VMCv20150309 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VMCv20151218 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VMCv20160311 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VMCv20160822 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VMCv20170109 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VMCv20170411 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VMCv20171101 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VMCv20180702 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VMCv20181120 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans Multiframe VVVDR4 Requested sky transparency {image primary HDU keyword: HIERARCH ESO OBS AMBI TRANS} varchar 64   NONE  
reqSkyTrans ultravistaMultiframe, vhsMultiframe, videoMultiframe, vikingMultiframe, vmcMultiframe, vvvMultiframe VSAQC Requested sky transparency varchar 64   NONE  
reqtime Multiframe VHSDR1 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VHSDR2 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VHSDR3 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VHSDR4 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VHSv20120926 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VHSv20130417 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VHSv20140409 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VHSv20150108 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VHSv20160114 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VHSv20160507 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VHSv20170630 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VHSv20171207 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VHSv20180419 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VIDEODR2 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VIDEODR3 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VIDEODR4 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VIDEODR5 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VIDEOv20100513 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VIDEOv20111208 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VIKINGDR2 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VIKINGDR3 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VIKINGDR4 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VIKINGv20110714 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VIKINGv20111019 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VIKINGv20130417 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VIKINGv20140402 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VIKINGv20150421 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VIKINGv20151230 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VIKINGv20160406 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VIKINGv20161202 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VIKINGv20170715 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VIKINGv20181012 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VMCDR1 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VMCDR2 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VMCDR3 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VMCDR4 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VMCv20110816 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VMCv20110909 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VMCv20120126 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VMCv20121128 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VMCv20130304 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VMCv20130805 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VMCv20140428 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VMCv20140903 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VMCv20150309 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VMCv20151218 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VMCv20160311 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VMCv20160822 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VMCv20170109 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VMCv20170411 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VMCv20171101 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VMCv20180702 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VMCv20181120 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime Multiframe VVVDR4 Requested integration time [s] {image primary HDU keyword: REQTIME} real 4   -0.9999995e9  
reqtime ultravistaMultiframe, vhsMultiframe, videoMultiframe, vikingMultiframe, vmcMultiframe, vvvMultiframe VSAQC Requested integration time [s] real 4   -0.9999995e9  
rerrave machoLMCSource, machoSMCSource MACHO red: average error of measurements on LC in units of A, where A is the the measured flux divided by the median flux. real 4      
rerraver machoLMCSource, machoSMCSource MACHO red: average error on robustified LC real 4      
resFlux nvssSource NVSS Peak residual flux, in mJy/beam real 4 mJy   phot.flux.density;em.radio
resultsFile ArchiveCurationHistory VHSDR1 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VHSDR2 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VHSDR3 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VHSDR4 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VHSv20120926 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VHSv20130417 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VHSv20150108 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VHSv20160114 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VHSv20160507 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VHSv20170630 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VHSv20171207 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VHSv20180419 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VIDEODR2 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VIDEODR3 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VIDEODR4 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VIDEODR5 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VIDEOv20100513 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VIDEOv20111208 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VIKINGDR2 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VIKINGDR3 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VIKINGDR4 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VIKINGv20110714 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VIKINGv20111019 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VIKINGv20130417 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VIKINGv20150421 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VIKINGv20151230 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VIKINGv20160406 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VIKINGv20161202 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VIKINGv20170715 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VIKINGv20181012 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VMCDR1 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VMCDR3 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VMCDR4 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VMCv20110816 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VMCv20110909 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VMCv20120126 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VMCv20121128 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VMCv20130304 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VMCv20130805 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VMCv20140428 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VMCv20140903 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VMCv20150309 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VMCv20151218 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VMCv20160311 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VMCv20160822 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VMCv20170109 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VMCv20170411 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VMCv20171101 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VMCv20180702 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VMCv20181120 filename of any results file varchar 256     meta.id;meta.file
resultsFile ArchiveCurationHistory VVVDR4 filename of any results file varchar 256     meta.id;meta.file
REVOLUT twoxmm, twoxmm_v1_2, twoxmmi_dr3_v1_0 XMM The XMM-Newton revolution number. varchar 4 orbit    
REVOLUT xmm3dr4 XMM The XMM-Newton revolution number. varchar 50 orbit    
RF_D combo17CDFSSource COMBO17 flux in filter R in run D (07.10.-22.10.1999) float 8      
RF_E combo17CDFSSource COMBO17 flux in filter R in run E (28.01.-11.02.2000) float 8      
RF_F combo17CDFSSource COMBO17 flux in filter R in run F (21.09.-30.09.2000) float 8      
RF_G combo17CDFSSource COMBO17 flux in filter R in run G (19.01.-20.01.2001) float 8      
RF_S combo17CDFSSource COMBO17 combined flux in filter R; corrected for the gain of the CCD and only applied to objects without variability flag float 8      
rFlag rosat_bsc, rosat_fsc ROSAT source counts and extraction radius recalculated varchar 1     meta.code
rh twomass_scn TWOMASS Relative humidity of telescope enclosure at beginning of scan. smallint 2 %   meta.note;obs
rh twomass_sixx2_scn TWOMASS relative humidity (%) at beginning of scan smallint 2 %    
RHALF mgcGalaxyStruct MGC GIM2D HLR real 4   99.99  
rho12 allwise_sc2 WISE The correlation coefficient between the W1 and W2 single-exposure flux measurements. The value is a signed 2-digit integer, expressed as a percentage. Negative values indicate anticorrelation. rho12 is approximately equal to 100 times the J variability index of Stetson (1996 PASP, 108, 851) computed for W1 and W2. int 4 percent    
rho23 allwise_sc2 WISE The correlation coefficient between the W2 and W3 single-exposure flux measurements. The value is a signed 2-digit integer, expressed as a percentage. Negative values indicate anticorrelation. rho23 is approximately equal to 100 times the J variability index of Stetson (1996 PASP, 108, 851) computed for W2 and W3. int 4 percent    
rho34 allwise_sc2 WISE The correlation coefficient between the W3 and W4 single-exposure flux measurements. The value is a signed 2-digit integer, expressed as a percentage. Negative values indicate anticorrelation. rho34 is approximately equal to 100 times the J variability index of Stetson (1996 PASP, 108, 851) computed for W3 and W4. int 4 percent    
rl rosat_fsc ROSAT reliability of source detection (0...99) tinyint 1     stat.fit.goodness
RMAG grs_ngpSource, grs_ranSource, grs_sgpSource TWODFGRS Unmatched APM 'total' mag real 4      
RMAG target SIXDF Rf galaxy magnitude from recalibrated SuperCOSMOS data (0.00 is null) real 4 mag    
Rmag combo17CDFSSource COMBO17 total magnitude in R real 4 mag    
Rmag denisDR3Source DENIS R magnitude of USNOA2.0 nearest match float 8 mag    
rmagave machoLMCSource, machoSMCSource MACHO red: median magnitude of LC in instrumental units real 4      
rmagaveu machoLMCSource, machoSMCSource MACHO red: median magnitude in instrumental units before removing bad points real 4      
RMAGSEL target SIXDF Rf magnitude from online SuperCOSMOS Sky Surveys (99.99 and 22.0 are nulls), appeared as BMAG in the EDR and DR1 real 4 mag    
rmissave machoLMCSource, machoSMCSource MACHO red: average of missing pixel sodophot measure real 4      
rms first08Jul16Source, firstSource, firstSource12Feb16 FIRST local noise estimate at the source position real 4 mJy   instr.det.noise
rms_f3_6 sage_lmcIracSource SPITZER deviation of detectors from the final flux of each source for band 3.6 real 4 mJy    
rms_f3_6 sage_smcIRACv1_5Source SPITZER rms deviation of the individual detections from the final flux of each source for 3.6um IRAC (Band 1) real 4 mJy    
rms_f4_5 sage_lmcIracSource SPITZER deviation of detectors from the final flux of each source for band 4.5 real 4 mJy    
rms_f4_5 sage_smcIRACv1_5Source SPITZER rms deviation of the individual detections from the final flux of each source for 4.5um IRAC (Band 2) real 4 mJy    
rms_f5_8 sage_lmcIracSource SPITZER deviation of detectors from the final flux of each source for band 5.8 real 4 mJy    
rms_f5_8 sage_smcIRACv1_5Source SPITZER rms deviation of the individual detections from the final flux of each source for 5.8um IRAC (Band 3) real 4 mJy    
rms_f8_0 sage_lmcIracSource SPITZER deviation of detectors from the final flux of each source for band 8.0 real 4 mJy    
rms_f8_0 sage_smcIRACv1_5Source SPITZER rms deviation of the individual detections from the final flux of each source for 8.0um IRAC (Band 4) real 4 mJy    
rN machoLMCSource, machoSMCSource MACHO red: number of good points on Lightcurve (LC) smallint 2      
rNr machoLMCSource, machoSMCSource MACHO red: number of points on robustified LC smallint 2      
rolledBack ArchiveCurationHistory VHSDR1 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VHSDR2 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VHSDR3 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VHSDR4 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VHSv20120926 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VHSv20130417 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VHSv20150108 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VHSv20160114 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VHSv20160507 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VHSv20170630 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VHSv20171207 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VHSv20180419 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VIDEODR2 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VIDEODR3 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VIDEODR4 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VIDEODR5 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VIDEOv20100513 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VIDEOv20111208 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VIKINGDR2 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VIKINGDR3 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VIKINGDR4 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VIKINGv20110714 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VIKINGv20111019 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VIKINGv20130417 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VIKINGv20150421 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VIKINGv20151230 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VIKINGv20160406 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VIKINGv20161202 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VIKINGv20170715 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VIKINGv20181012 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VMCDR1 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VMCDR3 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VMCDR4 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VMCv20110816 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VMCv20110909 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VMCv20120126 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VMCv20121128 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VMCv20130304 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VMCv20130805 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VMCv20140428 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VMCv20140903 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VMCv20150309 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VMCv20151218 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VMCv20160311 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VMCv20160822 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VMCv20170109 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VMCv20170411 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VMCv20171101 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VMCv20180702 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VMCv20181120 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rolledBack ArchiveCurationHistory VVVDR4 Flag for roll-back of this event: 0=no, 1 = yes tinyint 1     ??
rot_flag aux_qso_icrf2_match GAIADR1 Flag indicating how this source was used to fix the orientation of the reference frame of the Gaia DR1 solution int 4     meta.code
rp_mag_zero_oint_error ext_phot_zero_point GAIADR1 Uncertainty on RP magnitude zero point float 8 mag   stat.error;phot.mag;arith.zp
rp_mag_zero_point ext_phot_zero_point GAIADR1 RP magnitude zero point float 8 mag   phot.mag;arith.zp
rpmag_APASSDR9 ravedr5Source RAVE r' magnitude from APASSDR9 real 4 mag   phot.mag;em.opt
rpsfave machoLMCSource, machoSMCSource MACHO red: average over LC of sodophot measure of goodness of psf fit real 4      
rpsfsig machoLMCSource, machoSMCSource MACHO red: sqrt of variance of red psf sodophot measure real 4      
rqr machoLMCSource, machoSMCSource MACHO red: probability of getting value as large as rchi2r by chance real 4      
rqw machoLMCSource, machoSMCSource MACHO red: probability of getting value as large as rchi2w by chance real 4      
rrlID ogle4RRLyrLmcSource OGLE Cepheid ID in the form OGLE-LMC-RRLYR-NNNNN varchar 21     meta.id
rrlID ogle4RRLyrSmcSource OGLE Cepheid ID in the form OGLE-SMC-RRLYR-NNNNN varchar 21     meta.id
rrLyrMode vmcRRlyraeVariables VMCDR4 Mode, F0-fundamental mode {catalogue TType keyword: MODE} varchar 16   NONE meta.code.class
rrLyrMode vmcRRlyraeVariables VMCv20160822 Mode, F0-fundamental mode {catalogue TType keyword: MODE} varchar 16   NONE meta.code.class
rrLyrMode vmcRRlyraeVariables VMCv20170109 Mode, F0-fundamental mode {catalogue TType keyword: MODE} varchar 16   NONE meta.code.class
rrLyrMode vmcRRlyraeVariables VMCv20170411 Mode, F0-fundamental mode {catalogue TType keyword: MODE} varchar 16   NONE meta.code.class
rrLyrMode vmcRRlyraeVariables VMCv20171101 Mode, F0-fundamental mode {catalogue TType keyword: MODE} varchar 16   NONE meta.code.class
rrLyrMode vmcRRlyraeVariables VMCv20180702 Mode, F0-fundamental mode {catalogue TType keyword: MODE} varchar 16   NONE meta.code.class
rrLyrMode vmcRRlyraeVariables VMCv20181120 Mode, F0-fundamental mode {catalogue TType keyword: MODE} varchar 16   NONE meta.code.class
rs5 machoLMCSource, machoSMCSource MACHO red: number of points on LC 5-sigma above median int 4      
rs5d machoLMCSource, machoSMCSource MACHO red: number of points on LC 5-sigma below median (eclipsing binary search) int 4      
rsig machoLMCSource, machoSMCSource MACHO red: sqrt of variance of A-1 measurements over LC. real 4      
rsMag combo17CDFSSource COMBO17 Absolute restframe magnitude in SDSS r (calculated from redshifted best_fit template, depending on redshift and filter extrapolation outside the COMBO-17 filter set can be necessary, only calculated for objects classified as galaxies) real 4 mag    
RUN_R spectra SIXDF R run number int 4      
RUN_V spectra SIXDF V run number int 4      
runID MultiframeDetector VHSDR1 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VHSDR2 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VHSDR3 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VHSDR4 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VHSv20120926 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VHSv20130417 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VHSv20140409 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VHSv20150108 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VHSv20160114 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VHSv20160507 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VHSv20170630 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VHSv20171207 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VHSv20180419 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VIDEODR2 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VIDEODR3 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VIDEODR4 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VIDEODR5 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VIDEOv20100513 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VIDEOv20111208 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VIKINGDR2 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VIKINGDR3 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VIKINGDR4 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VIKINGv20110714 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VIKINGv20111019 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VIKINGv20130417 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VIKINGv20140402 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VIKINGv20150421 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VIKINGv20151230 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VIKINGv20160406 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VIKINGv20161202 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VIKINGv20170715 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VIKINGv20181012 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VMCDR1 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VMCDR2 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VMCDR3 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VMCDR4 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VMCv20110816 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VMCv20110909 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VMCv20120126 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VMCv20121128 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VMCv20130304 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VMCv20130805 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VMCv20140428 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VMCv20140903 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VMCv20150309 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VMCv20151218 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VMCv20160311 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VMCv20160822 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VMCv20170109 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VMCv20170411 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VMCv20171101 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VMCv20180702 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VMCv20181120 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID MultiframeDetector VVVDR4 Name of CASU raw data file {image extension keyword: RUNID} varchar 256   NONE meta.id;meta.file
runID ultravistaMultiframeDetector, vhsMultiframeDetector, videoMultiframeDetector, vikingMultiframeDetector, vmcMultiframeDetector, vvvMultiframeDetector VSAQC Name of CASU raw data file varchar 256   NONE meta.id;meta.file
rv_nb_transits gaia_source GAIADR2 Number of transits used to compute the radial velocity int 4     meta.number
rv_template_fe_h gaia_source GAIADR2 Fe/H of the template used to compute radial velocity real 4 dex   stat.fit.param
rv_template_logg gaia_source GAIADR2 log g of the template used to compute the radial velocity real 4 log cgs   stat.fit.param
rv_template_teff gaia_source GAIADR2 Teff of the template used to compute radial velocity real 4 K   stat.fit.param



Home | Overview | Browser | Access | Login | Cookbook
Listing | FreeSQL
Links | Credits

WFAU, Institute for Astronomy,
Royal Observatory, Blackford Hill
Edinburgh, EH9 3HJ, UK

vsa-support@roe.ac.uk
20/11/2018