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Glossary of WSA attributes

This Glossary alphabetically lists all attributes used in the UKIDSSDR5 database(s) held in the WSA. If you would like to have more information about the schema tables please use the UKIDSSDR5 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

K

NameSchema TableDatabaseDescriptionTypeLengthUnitDefault ValueUnified Content Descriptor
k_1AperMag1 gpsJHKsource, gpsPointSource, gpsSource, reliableGpsPointSource WSA Extended source 1st epoch K aperture corrected mag (1.0 arcsec aperture diameter) real 4 mag -0.9999995e9 PHOT_MAG
k_1AperMag1Err gpsJHKsource, gpsPointSource, gpsSource, reliableGpsPointSource WSA Error in extended source 1st epoch K mag (1.0 arcsec aperture diameter) real 4 mag -0.9999995e9 ERROR
k_1AperMag3 gcsPointSource, gcsZYJHKsource, gpsJHKsource, gpsPointSource, reliableGcsPointSource, reliableGpsPointSource WSA Default point/extended source 1st epoch K aperture corrected mag (2.0 arcsec aperture diameter) real 4 mag -0.9999995e9 PHOT_MAG
k_1AperMag3 gcsSource, gpsSource WSA Default point/extended source 1st epoch K aperture corrected mag (2.0 arcsec aperture diameter)
If in doubt use this flux estimator
real 4 mag -0.9999995e9 PHOT_MAG
k_1AperMag3Err gcsPointSource, gcsSource, gcsZYJHKsource, gpsJHKsource, gpsPointSource, gpsSource, reliableGcsPointSource, reliableGpsPointSource WSA Error in default point/extended source 1st epoch K mag (2.0 arcsec aperture diameter) real 4 mag -0.9999995e9 ERROR
k_1AperMag4 gcsPointSource, gcsSource, gcsZYJHKsource, gpsJHKsource, gpsPointSource, gpsSource, reliableGcsPointSource, reliableGpsPointSource WSA Extended source 1st epoch K aperture corrected mag (2.8 arcsec aperture diameter) real 4 mag -0.9999995e9 PHOT_MAG
k_1AperMag4Err gcsPointSource, gcsSource, gcsZYJHKsource, gpsJHKsource, gpsPointSource, gpsSource, reliableGcsPointSource, reliableGpsPointSource WSA Error in extended source 1st epoch K mag (2.8 arcsec aperture diameter) real 4 mag -0.9999995e9 ERROR
k_1AperMag6 gcsPointSource, gcsSource, gcsZYJHKsource, reliableGcsPointSource WSA Extended source 1st epoch K aperture corrected mag (5.7 arcsec aperture diameter) real 4 mag -0.9999995e9 PHOT_MAG
k_1AperMag6Err gcsPointSource, gcsSource, gcsZYJHKsource, reliableGcsPointSource WSA Error in extended source 1st epoch K mag (5.7 arcsec aperture diameter) real 4 mag -0.9999995e9 ERROR
k_1Class gcsPointSource, gcsSource, gcsSourceRemeasurement, gcsZYJHKsource, gpsJHKsource, gpsPointSource, gpsSource, gpsSourceRemeasurement, reliableGcsPointSource, reliableGpsPointSource WSA discrete image classification flag in 1st epoch K smallint 2   -9999 CLASS_MISC
k_1ClassStat gcsPointSource, gcsSource, gcsSourceRemeasurement, gcsZYJHKsource, gpsSourceRemeasurement, reliableGcsPointSource WSA N(0,1) stellarness-of-profile statistic in 1st epoch K real 4   -0.9999995e9 STAT_PROP
k_1ClassStat gpsJHKsource, gpsPointSource, gpsSource, reliableGpsPointSource WSA S-Extractor classification statistic in 1st epoch K real 4   -0.9999995e9 STAT_PROP
k_1Deblend gcsPointSource, gcsSourceRemeasurement, gcsZYJHKsource, gpsJHKsource, gpsPointSource, gpsSource, gpsSourceRemeasurement, reliableGcsPointSource, reliableGpsPointSource WSA placeholder flag indicating parent/child relation in 1st epoch K int 4   -99999999 CODE_MISC
k_1Deblend gcsSource WSA placeholder flag indicating parent/child relation in 1st epoch K int 4   -99999999 CODE_MISC
This CASU pipeline processing source extraction flag is a placeholder only, and is always set to zero in all passbands in the merged source lists. If you need to know when a particular image detection is a component of a deblend or not, test bit 4 of attribute ppErrBits (see corresponding glossary entry) which is set by WFAU's post-processing software based on testing the areal profiles aprof2-8 (these are set by CASU to -1 for deblended components, or positive values for non-deblended detections). We encode this in an information bit of ppErrBits for convenience when querying the merged source tables.
k_1Ell gcsPointSource, gcsSource, gcsSourceRemeasurement, gcsZYJHKsource, gpsJHKsource, gpsPointSource, gpsSource, gpsSourceRemeasurement, reliableGcsPointSource, reliableGpsPointSource WSA 1-b/a, where a/b=semi-major/minor axes in 1st epoch K real 4   -0.9999995e9 PHYS_ELLIPTICITY
k_1eNum gcsMergeLog, gcsZYJHKmergeLog, gpsJHKmergeLog, gpsMergeLog WSA the extension number of this 1st epoch K frame tinyint 1     NUMBER
k_1ErrBits gcsPointSource, gcsSourceRemeasurement, gcsZYJHKsource, gpsJHKsource, gpsPointSource, gpsSourceRemeasurement, reliableGcsPointSource, reliableGpsPointSource WSA processing warning/error bitwise flags in 1st epoch K int 4   -99999999 CODE_MISC
k_1ErrBits gcsSource WSA processing warning/error bitwise flags in 1st epoch K int 4   -99999999 CODE_MISC
Apparently not actually an error bit flag, but a count of the number of zero confidence pixels in the default (2 arcsec diameter) aperture.
k_1ErrBits gpsSource WSA processing warning/error bitwise flags in 1st epoch K int 4   -99999999 CODE_MISC
This uses the FLAGS attribute in SE. The individual bit flags that this can be decomposed into are as follows:
Bit FlagMeaning
1The object has neighbours, bright enough and close enough to significantly bias the MAG_AUTO photometry or bad pixels (more than 10% of photometry affected).
2The object was originally blended with another
4At least one pixel is saturated (or very close to)
8The object is truncated (too close to an image boundary)
16Object's aperture data are incomplete or corrupted
32Object's isophotal data are imcomplete or corrupted. This is an old flag inherited from SE v1.0, and is kept for compatability reasons. It doesn't have any consequence for the extracted parameters.
64Memory overflow occurred during deblending
128Memory overflow occurred during extraction

k_1Eta gcsPointSource, gcsZYJHKsource, gpsJHKsource, gpsPointSource, reliableGcsPointSource, reliableGpsPointSource WSA Offset of 1st epoch K detection from master position (+north/-south) real 4 arcsec -0.9999995e9 POS_EQ_DEC_OFF
k_1Eta gcsSource, gpsSource WSA Offset of 1st epoch K detection from master position (+north/-south) real 4 arcsec -0.9999995e9 POS_EQ_DEC_OFF
When associating individual passband detections into merged sources, a generous (in terms of the positional uncertainties) pairing radius of 2.0 (UKIDSS LAS and GPS; also non-survey programmes) or 1.0 (UKIDSS GPS, DXS and UDS) arcseconds is used, the higher value enabling pairing of moving sources when epoch separations may be several years. Such a large association criterion can of course lead to spurious pairings in the merged sources lists (although note that between passband pairs, handshake pairing is done: both passbands must agree that the candidate pair is their nearest neighbour for the pair to propagate through into the merged source table). In order to help filter spurious pairings out, and assuming that large positional offsets between the different passband detections are not expected (e.g. because of source motion, or larger than usual positional uncertainties) then the attributes Xi and Eta can be used to filter any pairings with suspiciously large offsets in one or more bands. For example, for a clean sample of QSOs from the LAS, you might wish to insist that the offsets in the selected sample are all below 1 arcsecond: simply add WHERE clauses into the SQL sample selection script to exclude all Xi and Eta values larger than the threshold you want.
k_1Gausig gcsPointSource, gcsSource, gcsSourceRemeasurement, gcsZYJHKsource, gpsJHKsource, gpsPointSource, gpsSource, gpsSourceRemeasurement, reliableGcsPointSource, reliableGpsPointSource WSA RMS of axes of ellipse fit in 1st epoch K real 4 pixels -0.9999995e9 MORPH_PARAM
k_1HallMag gcsPointSource, gcsSource, gcsZYJHKsource, reliableGcsPointSource WSA Total point source 1st epoch K mag real 4 mag -0.9999995e9 PHOT_MAG
k_1HallMagErr gcsPointSource, gcsSource, gcsZYJHKsource, reliableGcsPointSource WSA Error in total point source 1st epoch K mag real 4 mag -0.9999995e9 ERROR
k_1Mag gcsSourceRemeasurement, gpsSourceRemeasurement WSA 1st epoch K mag (as appropriate for this merged source) real 4 mag -0.9999995e9 PHOT_MAG
k_1MagErr gcsSourceRemeasurement, gpsSourceRemeasurement WSA Error in 1st epoch K mag real 4 mag -0.9999995e9 ERROR
k_1mfID gcsMergeLog, gcsZYJHKmergeLog, gpsJHKmergeLog, gpsMergeLog WSA the UID of the relevant 1st epoch K multiframe bigint 8     ID_FRAME
k_1ObjID gcsPointSource, gcsZYJHKsource, gpsJHKsource, gpsPointSource, reliableGcsPointSource, reliableGpsPointSource WSA DEPRECATED (do not use) bigint 8   -99999999 ID_NUMBER
k_1ObjID gcsSource, gcsSourceRemeasurement, gpsSource, gpsSourceRemeasurement WSA DEPRECATED (do not use) bigint 8   -99999999 ID_NUMBER
This attribute is included in source tables for historical reasons, but it's use is not recommended unless you really know what you are doing. In general, if you need to look up detection table attributes for a source in a given passband that are not in the source table, you should make an SQL join between source, mergelog and detection using the primary key attribute frameSetID and combination multiframeID, extNum, seqNum to associate related rows between the three tables. See the Q&A example SQL for more information.
k_1PA gcsPointSource, gcsSource, gcsSourceRemeasurement, gcsZYJHKsource, gpsJHKsource, gpsPointSource, gpsSource, gpsSourceRemeasurement, reliableGcsPointSource, reliableGpsPointSource WSA ellipse fit celestial orientation in 1st epoch K real 4 Degrees -0.9999995e9 POS_POS-ANG
k_1PetroMag gcsPointSource, gcsSource, gcsZYJHKsource, reliableGcsPointSource WSA Extended source 1st epoch K mag (Petrosian) real 4 mag -0.9999995e9 PHOT_MAG
k_1PetroMagErr gcsPointSource, gcsSource, gcsZYJHKsource, reliableGcsPointSource WSA Error in extended source 1st epoch K mag (Petrosian) real 4 mag -0.9999995e9 ERROR
k_1ppErrBits gcsPointSource, gcsSourceRemeasurement, gcsZYJHKsource, gpsJHKsource, gpsPointSource, gpsSource, gpsSourceRemeasurement, reliableGcsPointSource, reliableGpsPointSource WSA additional WFAU post-processing error bits in 1st epoch K int 4   0 CODE_MISC
k_1ppErrBits gcsSource WSA additional WFAU post-processing error bits in 1st epoch K int 4   0 CODE_MISC
Post-processing error quality bit flags assigned (NB: from UKIDSS DR2 release onwards) in the WSA curation procedure for survey data. From least to most significant byte in the 4-byte integer attribute byte 0 (bits 0 to 7) corresponds to information on generally innocuous conditions that are nonetheless potentially significant as regards the integrity of that detection; byte 1 (bits 8 to 15) corresponds to warnings; byte 2 (bits 16 to 23) corresponds to important warnings; and finally byte 3 (bits 24 to 31) corresponds to severe warnings:
ByteBitDetection quality issue Threshold or bit mask Applies to
DecimalHexadecimal
0 4 Deblended 16 0x00000010 LAS, GCS, GPS, DXS
0 6 Bad pixel(s) in default aperture 64 0x00000040 LAS, GCS, GPS, DXS
2 16 Close to saturated 65536 0x00010000 LAS, GCS, GPS
2 19 Possible crosstalk artefact/contamination 524288 0x00080000 LAS, GCS, DXS
2 22 Lies within a dither offset of the stacked frame boundary 4194304 0x00400000 LAS, GCS, GPS, DXS

In this way, the higher the error quality bit flag value, the more likely it is that the detection is spurious. The decimal threshold (column 4) gives the minimum value of the quality flag for a detection having the given condition (since other bits in the flag may be set also; the corresponding hexadecimal value, where each digit corresponds to 4 bits in the flag, can be easier to compute when writing SQL queries to test for a given condition). For example, to exclude all K band sources in the LAS having any error quality condition other than informational ones, include a predicate ... AND kppErrBits ≤ 255. See the SQL Cookbook and other online pages for further information.
k_1PsfMag gcsPointSource, gcsSource, gcsZYJHKsource, reliableGcsPointSource WSA Point source profile-fitted 1st epoch K mag real 4 mag -0.9999995e9 PHOT_MAG
k_1PsfMagErr gcsPointSource, gcsSource, gcsZYJHKsource, reliableGcsPointSource WSA Error in point source profile-fitted 1st epoch K mag real 4 mag -0.9999995e9 ERROR
k_1SeqNum gcsPointSource, gcsSource, gcsZYJHKsource, gpsJHKsource, gpsPointSource, gpsSource, reliableGcsPointSource, reliableGpsPointSource WSA the running number of the 1st epoch K detection int 4   -99999999 ID_NUMBER
k_1SeqNum gcsSourceRemeasurement, gpsSourceRemeasurement WSA the running number of the 1st epoch K remeasurement int 4   -99999999 ID_NUMBER
k_1SerMag2D gcsPointSource, gcsSource, gcsZYJHKsource, reliableGcsPointSource WSA Extended source 1st epoch K mag (profile-fitted) real 4 mag -0.9999995e9 PHOT_MAG
k_1SerMag2DErr gcsPointSource, gcsSource, gcsZYJHKsource, reliableGcsPointSource WSA Error in extended source 1st epoch K mag (profile-fitted) real 4 mag -0.9999995e9 ERROR
k_1Xi gcsPointSource, gcsZYJHKsource, gpsJHKsource, gpsPointSource, reliableGcsPointSource, reliableGpsPointSource WSA Offset of 1st epoch K detection from master position (+east/-west) real 4 arcsec -0.9999995e9 POS_EQ_RA_OFF
k_1Xi gcsSource, gpsSource WSA Offset of 1st epoch K detection from master position (+east/-west) real 4 arcsec -0.9999995e9 POS_EQ_RA_OFF
When associating individual passband detections into merged sources, a generous (in terms of the positional uncertainties) pairing radius of 2.0 (UKIDSS LAS and GPS; also non-survey programmes) or 1.0 (UKIDSS GPS, DXS and UDS) arcseconds is used, the higher value enabling pairing of moving sources when epoch separations may be several years. Such a large association criterion can of course lead to spurious pairings in the merged sources lists (although note that between passband pairs, handshake pairing is done: both passbands must agree that the candidate pair is their nearest neighbour for the pair to propagate through into the merged source table). In order to help filter spurious pairings out, and assuming that large positional offsets between the different passband detections are not expected (e.g. because of source motion, or larger than usual positional uncertainties) then the attributes Xi and Eta can be used to filter any pairings with suspiciously large offsets in one or more bands. For example, for a clean sample of QSOs from the LAS, you might wish to insist that the offsets in the selected sample are all below 1 arcsecond: simply add WHERE clauses into the SQL sample selection script to exclude all Xi and Eta values larger than the threshold you want.
k_2AperMag1 gpsJHKsource, gpsPointSource, gpsSource, reliableGpsPointSource WSA Extended source 2nd epoch K aperture corrected mag (1.0 arcsec aperture diameter) real 4 mag -0.9999995e9 PHOT_MAG
k_2AperMag1Err gpsJHKsource, gpsPointSource, gpsSource, reliableGpsPointSource WSA Error in extended source 2nd epoch K mag (1.0 arcsec aperture diameter) real 4 mag -0.9999995e9 ERROR
k_2AperMag3 gcsPointSource, gcsZYJHKsource, gpsJHKsource, gpsPointSource, reliableGcsPointSource, reliableGpsPointSource WSA Default point/extended source 2nd epoch K aperture corrected mag (2.0 arcsec aperture diameter) real 4 mag -0.9999995e9 PHOT_MAG
k_2AperMag3 gcsSource, gpsSource WSA Default point/extended source 2nd epoch K aperture corrected mag (2.0 arcsec aperture diameter)
If in doubt use this flux estimator
real 4 mag -0.9999995e9 PHOT_MAG
k_2AperMag3Err gcsPointSource, gcsSource, gcsZYJHKsource, gpsJHKsource, gpsPointSource, gpsSource, reliableGcsPointSource, reliableGpsPointSource WSA Error in default point/extended source 2nd epoch K mag (2.0 arcsec aperture diameter) real 4 mag -0.9999995e9 ERROR
k_2AperMag4 gcsPointSource, gcsSource, gcsZYJHKsource, gpsJHKsource, gpsPointSource, gpsSource, reliableGcsPointSource, reliableGpsPointSource WSA Extended source 2nd epoch K aperture corrected mag (2.8 arcsec aperture diameter) real 4 mag -0.9999995e9 PHOT_MAG
k_2AperMag4Err gcsPointSource, gcsSource, gcsZYJHKsource, gpsJHKsource, gpsPointSource, gpsSource, reliableGcsPointSource, reliableGpsPointSource WSA Error in extended source 2nd epoch K mag (2.8 arcsec aperture diameter) real 4 mag -0.9999995e9 ERROR
k_2AperMag6 gcsPointSource, gcsSource, gcsZYJHKsource, reliableGcsPointSource WSA Extended source 2nd epoch K aperture corrected mag (5.7 arcsec aperture diameter) real 4 mag -0.9999995e9 PHOT_MAG
k_2AperMag6Err gcsPointSource, gcsSource, gcsZYJHKsource, reliableGcsPointSource WSA Error in extended source 2nd epoch K mag (5.7 arcsec aperture diameter) real 4 mag -0.9999995e9 ERROR
k_2Class gcsPointSource, gcsSource, gcsSourceRemeasurement, gcsZYJHKsource, gpsJHKsource, gpsPointSource, gpsSource, gpsSourceRemeasurement, reliableGcsPointSource, reliableGpsPointSource WSA discrete image classification flag in 2nd epoch K smallint 2   -9999 CLASS_MISC
k_2ClassStat gcsPointSource, gcsSource, gcsSourceRemeasurement, gcsZYJHKsource, gpsSourceRemeasurement, reliableGcsPointSource WSA N(0,1) stellarness-of-profile statistic in 2nd epoch K real 4   -0.9999995e9 STAT_PROP
k_2ClassStat gpsJHKsource, gpsPointSource, gpsSource, reliableGpsPointSource WSA S-Extractor classification statistic in 2nd epoch K real 4   -0.9999995e9 STAT_PROP
k_2Deblend gcsPointSource, gcsSourceRemeasurement, gcsZYJHKsource, gpsJHKsource, gpsPointSource, gpsSource, gpsSourceRemeasurement, reliableGcsPointSource, reliableGpsPointSource WSA placeholder flag indicating parent/child relation in 2nd epoch K int 4   -99999999 CODE_MISC
k_2Deblend gcsSource WSA placeholder flag indicating parent/child relation in 2nd epoch K int 4   -99999999 CODE_MISC
This CASU pipeline processing source extraction flag is a placeholder only, and is always set to zero in all passbands in the merged source lists. If you need to know when a particular image detection is a component of a deblend or not, test bit 4 of attribute ppErrBits (see corresponding glossary entry) which is set by WFAU's post-processing software based on testing the areal profiles aprof2-8 (these are set by CASU to -1 for deblended components, or positive values for non-deblended detections). We encode this in an information bit of ppErrBits for convenience when querying the merged source tables.
k_2Ell gcsPointSource, gcsSource, gcsSourceRemeasurement, gcsZYJHKsource, gpsJHKsource, gpsPointSource, gpsSource, gpsSourceRemeasurement, reliableGcsPointSource, reliableGpsPointSource WSA 1-b/a, where a/b=semi-major/minor axes in 2nd epoch K real 4   -0.9999995e9 PHYS_ELLIPTICITY
k_2eNum gcsMergeLog, gcsZYJHKmergeLog, gpsJHKmergeLog, gpsMergeLog WSA the extension number of this 2nd epoch K frame tinyint 1     NUMBER
k_2ErrBits gcsPointSource, gcsSourceRemeasurement, gcsZYJHKsource, gpsJHKsource, gpsPointSource, gpsSourceRemeasurement, reliableGcsPointSource, reliableGpsPointSource WSA processing warning/error bitwise flags in 2nd epoch K int 4   -99999999 CODE_MISC
k_2ErrBits gcsSource WSA processing warning/error bitwise flags in 2nd epoch K int 4   -99999999 CODE_MISC
Apparently not actually an error bit flag, but a count of the number of zero confidence pixels in the default (2 arcsec diameter) aperture.
k_2ErrBits gpsSource WSA processing warning/error bitwise flags in 2nd epoch K int 4   -99999999 CODE_MISC
This uses the FLAGS attribute in SE. The individual bit flags that this can be decomposed into are as follows:
Bit FlagMeaning
1The object has neighbours, bright enough and close enough to significantly bias the MAG_AUTO photometry or bad pixels (more than 10% of photometry affected).
2The object was originally blended with another
4At least one pixel is saturated (or very close to)
8The object is truncated (too close to an image boundary)
16Object's aperture data are incomplete or corrupted
32Object's isophotal data are imcomplete or corrupted. This is an old flag inherited from SE v1.0, and is kept for compatability reasons. It doesn't have any consequence for the extracted parameters.
64Memory overflow occurred during deblending
128Memory overflow occurred during extraction

k_2Eta gcsPointSource, gcsZYJHKsource, gpsJHKsource, gpsPointSource, reliableGcsPointSource, reliableGpsPointSource WSA Offset of 2nd epoch K detection from master position (+north/-south) real 4 arcsec -0.9999995e9 POS_EQ_DEC_OFF
k_2Eta gcsSource, gpsSource WSA Offset of 2nd epoch K detection from master position (+north/-south) real 4 arcsec -0.9999995e9 POS_EQ_DEC_OFF
When associating individual passband detections into merged sources, a generous (in terms of the positional uncertainties) pairing radius of 2.0 (UKIDSS LAS and GPS; also non-survey programmes) or 1.0 (UKIDSS GPS, DXS and UDS) arcseconds is used, the higher value enabling pairing of moving sources when epoch separations may be several years. Such a large association criterion can of course lead to spurious pairings in the merged sources lists (although note that between passband pairs, handshake pairing is done: both passbands must agree that the candidate pair is their nearest neighbour for the pair to propagate through into the merged source table). In order to help filter spurious pairings out, and assuming that large positional offsets between the different passband detections are not expected (e.g. because of source motion, or larger than usual positional uncertainties) then the attributes Xi and Eta can be used to filter any pairings with suspiciously large offsets in one or more bands. For example, for a clean sample of QSOs from the LAS, you might wish to insist that the offsets in the selected sample are all below 1 arcsecond: simply add WHERE clauses into the SQL sample selection script to exclude all Xi and Eta values larger than the threshold you want.
k_2Gausig gcsPointSource, gcsSource, gcsSourceRemeasurement, gcsZYJHKsource, gpsJHKsource, gpsPointSource, gpsSource, gpsSourceRemeasurement, reliableGcsPointSource, reliableGpsPointSource WSA RMS of axes of ellipse fit in 2nd epoch K real 4 pixels -0.9999995e9 MORPH_PARAM
k_2HallMag gcsPointSource, gcsSource, gcsZYJHKsource, reliableGcsPointSource WSA Total point source 2nd epoch K mag real 4 mag -0.9999995e9 PHOT_MAG
k_2HallMagErr gcsPointSource, gcsSource, gcsZYJHKsource, reliableGcsPointSource WSA Error in total point source 2nd epoch K mag real 4 mag -0.9999995e9 ERROR
k_2Mag gcsSourceRemeasurement, gpsSourceRemeasurement WSA 2nd epoch K mag (as appropriate for this merged source) real 4 mag -0.9999995e9 PHOT_MAG
k_2MagErr gcsSourceRemeasurement, gpsSourceRemeasurement WSA Error in 2nd epoch K mag real 4 mag -0.9999995e9 ERROR
k_2mfID gcsMergeLog, gcsZYJHKmergeLog, gpsJHKmergeLog, gpsMergeLog WSA the UID of the relevant 2nd epoch K multiframe bigint 8     ID_FRAME
k_2mrat twomass_scn 2MASS Ks-band average 2nd image moment ratio. real 4     FIT_PARAM_VALUE
k_2ObjID gcsPointSource, gcsZYJHKsource, gpsJHKsource, gpsPointSource, reliableGcsPointSource, reliableGpsPointSource WSA DEPRECATED (do not use) bigint 8   -99999999 ID_NUMBER
k_2ObjID gcsSource, gcsSourceRemeasurement, gpsSource, gpsSourceRemeasurement WSA DEPRECATED (do not use) bigint 8   -99999999 ID_NUMBER
This attribute is included in source tables for historical reasons, but it's use is not recommended unless you really know what you are doing. In general, if you need to look up detection table attributes for a source in a given passband that are not in the source table, you should make an SQL join between source, mergelog and detection using the primary key attribute frameSetID and combination multiframeID, extNum, seqNum to associate related rows between the three tables. See the Q&A example SQL for more information.
k_2PA gcsPointSource, gcsSource, gcsSourceRemeasurement, gcsZYJHKsource, gpsJHKsource, gpsPointSource, gpsSource, gpsSourceRemeasurement, reliableGcsPointSource, reliableGpsPointSource WSA ellipse fit celestial orientation in 2nd epoch K real 4 Degrees -0.9999995e9 POS_POS-ANG
k_2PetroMag gcsPointSource, gcsSource, gcsZYJHKsource, reliableGcsPointSource WSA Extended source 2nd epoch K mag (Petrosian) real 4 mag -0.9999995e9 PHOT_MAG
k_2PetroMagErr gcsPointSource, gcsSource, gcsZYJHKsource, reliableGcsPointSource WSA Error in extended source 2nd epoch K mag (Petrosian) real 4 mag -0.9999995e9 ERROR
k_2ppErrBits gcsPointSource, gcsSourceRemeasurement, gcsZYJHKsource, gpsJHKsource, gpsPointSource, gpsSource, gpsSourceRemeasurement, reliableGcsPointSource, reliableGpsPointSource WSA additional WFAU post-processing error bits in 2nd epoch K int 4   0 CODE_MISC
k_2ppErrBits gcsSource WSA additional WFAU post-processing error bits in 2nd epoch K int 4   0 CODE_MISC
Post-processing error quality bit flags assigned (NB: from UKIDSS DR2 release onwards) in the WSA curation procedure for survey data. From least to most significant byte in the 4-byte integer attribute byte 0 (bits 0 to 7) corresponds to information on generally innocuous conditions that are nonetheless potentially significant as regards the integrity of that detection; byte 1 (bits 8 to 15) corresponds to warnings; byte 2 (bits 16 to 23) corresponds to important warnings; and finally byte 3 (bits 24 to 31) corresponds to severe warnings:
ByteBitDetection quality issue Threshold or bit mask Applies to
DecimalHexadecimal
0 4 Deblended 16 0x00000010 LAS, GCS, GPS, DXS
0 6 Bad pixel(s) in default aperture 64 0x00000040 LAS, GCS, GPS, DXS
2 16 Close to saturated 65536 0x00010000 LAS, GCS, GPS
2 19 Possible crosstalk artefact/contamination 524288 0x00080000 LAS, GCS, DXS
2 22 Lies within a dither offset of the stacked frame boundary 4194304 0x00400000 LAS, GCS, GPS, DXS

In this way, the higher the error quality bit flag value, the more likely it is that the detection is spurious. The decimal threshold (column 4) gives the minimum value of the quality flag for a detection having the given condition (since other bits in the flag may be set also; the corresponding hexadecimal value, where each digit corresponds to 4 bits in the flag, can be easier to compute when writing SQL queries to test for a given condition). For example, to exclude all K band sources in the LAS having any error quality condition other than informational ones, include a predicate ... AND kppErrBits ≤ 255. See the SQL Cookbook and other online pages for further information.
k_2PsfMag gcsPointSource, gcsSource, gcsZYJHKsource, reliableGcsPointSource WSA Point source profile-fitted 2nd epoch K mag real 4 mag -0.9999995e9 PHOT_MAG
k_2PsfMagErr gcsPointSource, gcsSource, gcsZYJHKsource, reliableGcsPointSource WSA Error in point source profile-fitted 2nd epoch K mag real 4 mag -0.9999995e9 ERROR
k_2SeqNum gcsPointSource, gcsSource, gcsZYJHKsource, gpsJHKsource, gpsPointSource, gpsSource, reliableGcsPointSource, reliableGpsPointSource WSA the running number of the 2nd epoch K detection int 4   -99999999 ID_NUMBER
k_2SeqNum gcsSourceRemeasurement, gpsSourceRemeasurement WSA the running number of the 2nd epoch K remeasurement int 4   -99999999 ID_NUMBER
k_2SerMag2D gcsPointSource, gcsSource, gcsZYJHKsource, reliableGcsPointSource WSA Extended source 2nd epoch K mag (profile-fitted) real 4 mag -0.9999995e9 PHOT_MAG
k_2SerMag2DErr gcsPointSource, gcsSource, gcsZYJHKsource, reliableGcsPointSource WSA Error in extended source 2nd epoch K mag (profile-fitted) real 4 mag -0.9999995e9 ERROR
k_2Xi gcsPointSource, gcsZYJHKsource, gpsJHKsource, gpsPointSource, reliableGcsPointSource, reliableGpsPointSource WSA Offset of 2nd epoch K detection from master position (+east/-west) real 4 arcsec -0.9999995e9 POS_EQ_RA_OFF
k_2Xi gcsSource, gpsSource WSA Offset of 2nd epoch K detection from master position (+east/-west) real 4 arcsec -0.9999995e9 POS_EQ_RA_OFF
When associating individual passband detections into merged sources, a generous (in terms of the positional uncertainties) pairing radius of 2.0 (UKIDSS LAS and GPS; also non-survey programmes) or 1.0 (UKIDSS GPS, DXS and UDS) arcseconds is used, the higher value enabling pairing of moving sources when epoch separations may be several years. Such a large association criterion can of course lead to spurious pairings in the merged sources lists (although note that between passband pairs, handshake pairing is done: both passbands must agree that the candidate pair is their nearest neighbour for the pair to propagate through into the merged source table). In order to help filter spurious pairings out, and assuming that large positional offsets between the different passband detections are not expected (e.g. because of source motion, or larger than usual positional uncertainties) then the attributes Xi and Eta can be used to filter any pairings with suspiciously large offsets in one or more bands. For example, for a clean sample of QSOs from the LAS, you might wish to insist that the offsets in the selected sample are all below 1 arcsecond: simply add WHERE clauses into the SQL sample selection script to exclude all Xi and Eta values larger than the threshold you want.
k_5sig_ba twomass_xsc 2MASS K minor/major axis ratio fit to the 5-sigma isophote. real 4     PHYS_AXIS-RATIO
k_5sig_phi twomass_xsc 2MASS K angle to 5-sigma major axis (E of N). smallint 2 degrees   ERROR
k_5surf twomass_xsc 2MASS K central surface brightness (r<=5). real 4 mag   PHOT_SB_GENERAL
k_ba twomass_xsc 2MASS K minor/major axis ratio fit to the 3-sigma isophote. real 4     PHYS_AXIS-RATIO
k_back twomass_xsc 2MASS K coadd median background. real 4     CODE_MISC
k_bisym_chi twomass_xsc 2MASS K bi-symmetric cross-correlation chi. real 4     FIT_PARAM_VALUE
k_bisym_rat twomass_xsc 2MASS K bi-symmetric flux ratio. real 4     PHOT_FLUX_RATIO
k_bndg_amp twomass_xsc 2MASS K banding maximum FT amplitude on this side of coadd. real 4 DN   FIT_PARAM_VALUE
k_bndg_per twomass_xsc 2MASS K banding Fourier Transf. period on this side of coadd. int 4 arcsec   FIT_PARAM_VALUE
k_chif_ellf twomass_xsc 2MASS K % chi-fraction for elliptical fit to 3-sig isophote. real 4     FIT_PARAM_VALUE
k_cmsig twomass_psc 2MASS Corrected photometric uncertainty for the default Ks-band magnitude. real 4 mag   SPECT_FLUX_VALUE
k_con_indx twomass_xsc 2MASS K concentration index r_75%/r_25%. real 4     PHYS_CONCENT_INDEX
k_d_area twomass_xsc 2MASS K 5-sigma to 3-sigma differential area. smallint 2     FIT_RESIDUAL
k_flg_10 twomass_xsc 2MASS K confusion flag for 10 arcsec circular ap. mag. smallint 2     CODE_MISC
k_flg_15 twomass_xsc 2MASS K confusion flag for 15 arcsec circular ap. mag. smallint 2     CODE_MISC
k_flg_20 twomass_xsc 2MASS K confusion flag for 20 arcsec circular ap. mag. smallint 2     CODE_MISC
k_flg_25 twomass_xsc 2MASS K confusion flag for 25 arcsec circular ap. mag. smallint 2     CODE_MISC
k_flg_30 twomass_xsc 2MASS K confusion flag for 30 arcsec circular ap. mag. smallint 2     CODE_MISC
k_flg_40 twomass_xsc 2MASS K confusion flag for 40 arcsec circular ap. mag. smallint 2     CODE_MISC
k_flg_5 twomass_xsc 2MASS K confusion flag for 5 arcsec circular ap. mag. smallint 2     CODE_MISC
k_flg_50 twomass_xsc 2MASS K confusion flag for 50 arcsec circular ap. mag. smallint 2     CODE_MISC
k_flg_60 twomass_xsc 2MASS K confusion flag for 60 arcsec circular ap. mag. smallint 2     CODE_MISC
k_flg_7 twomass_xsc 2MASS K confusion flag for 7 arcsec circular ap. mag. smallint 2     CODE_MISC
k_flg_70 twomass_xsc 2MASS K confusion flag for 70 arcsec circular ap. mag. smallint 2     CODE_MISC
k_flg_c twomass_xsc 2MASS K confusion flag for Kron circular mag. smallint 2     CODE_MISC
k_flg_e twomass_xsc 2MASS K confusion flag for Kron elliptical mag. smallint 2     CODE_MISC
k_flg_fc twomass_xsc 2MASS K confusion flag for fiducial Kron circ. mag. smallint 2     CODE_MISC
k_flg_fe twomass_xsc 2MASS K confusion flag for fiducial Kron ell. mag. smallint 2     CODE_MISC
k_flg_i20c twomass_xsc 2MASS K confusion flag for 20mag/sq." iso. circ. mag. smallint 2     CODE_MISC
k_flg_i20e twomass_xsc 2MASS K confusion flag for 20mag/sq." iso. ell. mag. smallint 2     CODE_MISC
k_flg_i21c twomass_xsc 2MASS K confusion flag for 21mag/sq." iso. circ. mag. smallint 2     CODE_MISC
k_flg_i21e twomass_xsc 2MASS K confusion flag for 21mag/sq." iso. ell. mag. smallint 2     CODE_MISC
k_flg_j21fc twomass_xsc 2MASS K confusion flag for 21mag/sq." iso. fid. circ. mag. smallint 2     CODE_MISC
k_flg_j21fe twomass_xsc 2MASS K confusion flag for 21mag/sq." iso. fid. ell. mag. smallint 2     CODE_MISC
k_flg_k20fc twomass_xsc 2MASS K confusion flag for 20mag/sq." iso. fid. circ. mag. smallint 2     CODE_MISC
k_flg_k20fe twomass_xsc 2MASS K confusion flag for 20mag/sq." iso. fid. ell. mag. smallint 2     CODE_MISC
k_m twomass_psc 2MASS Default Ks-band magnitude real 4 mag   SPECT_FLUX_VALUE
k_m_10 twomass_xsc 2MASS K 10 arcsec radius circular aperture magnitude. real 4 mag   SPECT_FLUX_VALUE
k_m_15 twomass_xsc 2MASS K 15 arcsec radius circular aperture magnitude. real 4 mag   SPECT_FLUX_VALUE
k_m_20 twomass_xsc 2MASS K 20 arcsec radius circular aperture magnitude. real 4 mag   SPECT_FLUX_VALUE
k_m_25 twomass_xsc 2MASS K 25 arcsec radius circular aperture magnitude. real 4 mag   SPECT_FLUX_VALUE
k_m_30 twomass_xsc 2MASS K 30 arcsec radius circular aperture magnitude. real 4 mag   SPECT_FLUX_VALUE
k_m_40 twomass_xsc 2MASS K 40 arcsec radius circular aperture magnitude. real 4 mag   SPECT_FLUX_VALUE
k_m_5 twomass_xsc 2MASS K 5 arcsec radius circular aperture magnitude. real 4 mag   SPECT_FLUX_VALUE
k_m_50 twomass_xsc 2MASS K 50 arcsec radius circular aperture magnitude. real 4 mag   SPECT_FLUX_VALUE
k_m_60 twomass_xsc 2MASS K 60 arcsec radius circular aperture magnitude. real 4 mag   SPECT_FLUX_VALUE
k_m_7 twomass_xsc 2MASS K 7 arcsec radius circular aperture magnitude. real 4 mag   SPECT_FLUX_VALUE
k_m_70 twomass_xsc 2MASS K 70 arcsec radius circular aperture magnitude. real 4 mag   SPECT_FLUX_VALUE
k_m_c twomass_xsc 2MASS K Kron circular aperture magnitude. real 4 mag   SPECT_FLUX_VALUE
k_m_e twomass_xsc 2MASS K Kron elliptical aperture magnitude. real 4 mag   SPECT_FLUX_VALUE
k_m_ext twomass_xsc 2MASS K mag from fit extrapolation. real 4 mag   SPECT_FLUX_VALUE
k_m_fc twomass_xsc 2MASS K fiducial Kron circular magnitude. real 4 mag   SPECT_FLUX_VALUE
k_m_fe twomass_xsc 2MASS K fiducial Kron ell. mag aperture magnitude. real 4 mag   SPECT_FLUX_VALUE
k_m_i20c twomass_xsc 2MASS K 20mag/sq." isophotal circular ap. magnitude. real 4 mag   SPECT_FLUX_VALUE
k_m_i20e twomass_xsc 2MASS K 20mag/sq." isophotal elliptical ap. magnitude. real 4 mag   SPECT_FLUX_VALUE
k_m_i21c twomass_xsc 2MASS K 21mag/sq." isophotal circular ap. magnitude. real 4 mag   SPECT_FLUX_VALUE
k_m_i21e twomass_xsc 2MASS K 21mag/sq." isophotal elliptical ap. magnitude. real 4 mag   SPECT_FLUX_VALUE
k_m_j21fc twomass_xsc 2MASS K 21mag/sq." isophotal fiducial circ. ap. mag. real 4 mag   SPECT_FLUX_VALUE
k_m_j21fe twomass_xsc 2MASS K 21mag/sq." isophotal fiducial ell. ap. magnitude. real 4 mag   SPECT_FLUX_VALUE
k_m_k20fc twomass_xsc 2MASS K 20mag/sq." isophotal fiducial circ. ap. mag. real 4 mag   SPECT_FLUX_VALUE
k_m_k20fe twomass_xsc 2MASS K 20mag/sq." isophotal fiducial ell. ap. magnitude. real 4 mag   SPECT_FLUX_VALUE
k_m_stdap twomass_psc 2MASS Ks-band "standard" aperture magnitude. real 4 mag   SPECT_FLUX_VALUE
k_m_sys twomass_xsc 2MASS K system photometry magnitude. real 4 mag   SPECT_FLUX_VALUE
k_mnsurfb_eff twomass_xsc 2MASS K mean surface brightness at the half-light radius. real 4 mag   PHOT_SB_GENERAL
k_msig_10 twomass_xsc 2MASS K 1-sigma uncertainty in 10 arcsec circular ap. mag. real 4 mag   ERROR
k_msig_15 twomass_xsc 2MASS K 1-sigma uncertainty in 15 arcsec circular ap. mag. real 4 mag   ERROR
k_msig_20 twomass_xsc 2MASS K 1-sigma uncertainty in 20 arcsec circular ap. mag. real 4 mag   ERROR
k_msig_25 twomass_xsc 2MASS K 1-sigma uncertainty in 25 arcsec circular ap. mag. real 4 mag   ERROR
k_msig_30 twomass_xsc 2MASS K 1-sigma uncertainty in 30 arcsec circular ap. mag. real 4 mag   ERROR
k_msig_40 twomass_xsc 2MASS K 1-sigma uncertainty in 40 arcsec circular ap. mag. real 4 mag   ERROR
k_msig_5 twomass_xsc 2MASS K 1-sigma uncertainty in 5 arcsec circular ap. mag. real 4 mag   ERROR
k_msig_50 twomass_xsc 2MASS K 1-sigma uncertainty in 50 arcsec circular ap. mag. real 4 mag   ERROR
k_msig_60 twomass_xsc 2MASS K 1-sigma uncertainty in 60 arcsec circular ap. mag. real 4 mag   ERROR
k_msig_7 twomass_xsc 2MASS K 1-sigma uncertainty in 7 arcsec circular ap. mag. real 4 mag   ERROR
k_msig_70 twomass_xsc 2MASS K 1-sigma uncertainty in 70 arcsec circular ap. mag. real 4 mag   ERROR
k_msig_c twomass_xsc 2MASS K 1-sigma uncertainty in Kron circular mag. real 4 mag   ERROR
k_msig_e twomass_xsc 2MASS K 1-sigma uncertainty in Kron elliptical mag. real 4 mag   ERROR
k_msig_ext twomass_xsc 2MASS K 1-sigma uncertainty in mag from fit extrapolation. real 4 mag   ERROR
k_msig_fc twomass_xsc 2MASS K 1-sigma uncertainty in fiducial Kron circ. mag. real 4 mag   ERROR
k_msig_fe twomass_xsc 2MASS K 1-sigma uncertainty in fiducial Kron ell. mag. real 4 mag   ERROR
k_msig_i20c twomass_xsc 2MASS K 1-sigma uncertainty in 20mag/sq." iso. circ. mag. real 4 mag   ERROR
k_msig_i20e twomass_xsc 2MASS K 1-sigma uncertainty in 20mag/sq." iso. ell. mag. real 4 mag   ERROR
k_msig_i21c twomass_xsc 2MASS K 1-sigma uncertainty in 21mag/sq." iso. circ. mag. real 4 mag   ERROR
k_msig_i21e twomass_xsc 2MASS K 1-sigma uncertainty in 21mag/sq." iso. ell. mag. real 4 mag   ERROR
k_msig_j21fc twomass_xsc 2MASS K 1-sigma uncertainty in 21mag/sq." iso.fid.circ.mag. real 4 mag   ERROR
k_msig_j21fe twomass_xsc 2MASS K 1-sigma uncertainty in 21mag/sq." iso.fid.ell.mag. real 4 mag   ERROR
k_msig_k20fc twomass_xsc 2MASS K 1-sigma uncertainty in 20mag/sq." iso.fid.circ. mag. real 4 mag   ERROR
k_msig_k20fe twomass_xsc 2MASS K 1-sigma uncertainty in 20mag/sq." iso.fid.ell.mag. real 4 mag   ERROR
k_msig_stdap twomass_psc 2MASS Uncertainty in the Ks-band standard aperture magnitude. real 4 mag   SPECT_FLUX_VALUE
k_msig_sys twomass_xsc 2MASS K 1-sigma uncertainty in system photometry mag. real 4 mag   ERROR
k_msigcom twomass_psc 2MASS Combined, or total photometric uncertainty for the default Ks-band magnitude. real 4 mag   SPECT_FLUX_VALUE
k_msnr10 twomass_scn 2MASS The estimated Ks-band magnitude at which SNR=10 is achieved for this scan. real 4 mag   SPECT_FLUX_VALUE
k_n_snr10 twomass_scn 2MASS Number of point sources at Ks-band with SNR>10 (instrumental mag <=14.3) int 4     NUMBER
k_pchi twomass_xsc 2MASS K chi^2 of fit to rad. profile (LCSB: alpha scale len). real 4     FIT_PARAM_VALUE
k_peak twomass_xsc 2MASS K peak pixel brightness. real 4 mag   PHOT_SB_GENERAL
k_perc_darea twomass_xsc 2MASS K 5-sigma to 3-sigma percent area change. smallint 2     FIT_PARAM
k_phi twomass_xsc 2MASS K angle to 3-sigma major axis (E of N). smallint 2 degrees   POS_POS-ANG
k_psfchi twomass_psc 2MASS Reduced chi-squared goodness-of-fit value for the Ks-band profile-fit photometry made on the 1.3 s "Read_2" exposures. real 4     FIT_PARAM_VALUE
k_psp twomass_scn 2MASS Ks-band photometric sensitivity paramater (PSP). real 4     INST_SENSITIVITY
k_pts_noise twomass_scn 2MASS Base-10 logarithm of the mode of the noise distribution for all point source detections in the scan, where the noise is estimated from the measured Ks-band photometric errors and is expressed in units of mJy. real 4     INST_NOISE
k_r_c twomass_xsc 2MASS K Kron circular aperture radius. real 4 arcsec   EXTENSION_RAD
k_r_e twomass_xsc 2MASS K Kron elliptical aperture semi-major axis. real 4 arcsec   EXTENSION_RAD
k_r_eff twomass_xsc 2MASS K half-light (integrated half-flux point) radius. real 4 arcsec   EXTENSION_RAD
k_r_i20c twomass_xsc 2MASS K 20mag/sq." isophotal circular aperture radius. real 4 arcsec   EXTENSION_RAD
k_r_i20e twomass_xsc 2MASS K 20mag/sq." isophotal elliptical ap. semi-major axis. real 4 arcsec   EXTENSION_RAD
k_r_i21c twomass_xsc 2MASS K 21mag/sq." isophotal circular aperture radius. real 4 arcsec   EXTENSION_RAD
k_r_i21e twomass_xsc 2MASS K 21mag/sq." isophotal elliptical ap. semi-major axis. real 4 arcsec   EXTENSION_RAD
k_resid_ann twomass_xsc 2MASS K residual annulus background median. real 4 DN   CODE_MISC
k_sc_1mm twomass_xsc 2MASS K 1st moment (score) (LCSB: super blk 2,4,8 SNR). real 4     CODE_MISC
k_sc_2mm twomass_xsc 2MASS K 2nd moment (score) (LCSB: SNRMAX - super SNR max). real 4     CODE_MISC
k_sc_msh twomass_xsc 2MASS K median shape score. real 4     CODE_MISC
k_sc_mxdn twomass_xsc 2MASS K mxdn (score) (LCSB: BSNR - block/smoothed SNR). real 4     CODE_MISC
k_sc_r1 twomass_xsc 2MASS K r1 (score). real 4     CODE_MISC
k_sc_r23 twomass_xsc 2MASS K r23 (score) (LCSB: TSNR - integrated SNR for r=15). real 4     CODE_MISC
k_sc_sh twomass_xsc 2MASS K shape (score). real 4     CODE_MISC
k_sc_vint twomass_xsc 2MASS K vint (score). real 4     CODE_MISC
k_sc_wsh twomass_xsc 2MASS K wsh (score) (LCSB: PSNR - peak raw SNR). real 4     CODE_MISC
k_seetrack twomass_xsc 2MASS K band seetracking score. real 4     CODE_MISC
k_sh0 twomass_xsc 2MASS K ridge shape (LCSB: BSNR limit). real 4     FIT_PARAM
k_shape_avg twomass_scn 2MASS Ks-band average seeing shape for scan. real 4     INST_SEEING
k_shape_rms twomass_scn 2MASS RMS-error of Ks-band average seeing shape. real 4     INST_SEEING
k_sig_sh0 twomass_xsc 2MASS K ridge shape sigma (LCSB: B2SNR limit). real 4     FIT_PARAM
k_snr twomass_psc 2MASS Ks-band "scan" signal-to-noise ratio. real 4 mag   INST_NOISE
k_subst2 twomass_xsc 2MASS K residual background #2 (score). real 4     CODE_MISC
k_zp_ap twomass_scn 2MASS Photometric zero-point for Ks-band aperture photometry. real 4 mag   PHOT_ZP
k_zperr_ap twomass_scn 2MASS RMS-error of zero-point for Ks-band aperture photometry real 4 mag   FIT_ERROR
kAperMag3 dxsJKsource, lasExtendedSource, lasPointSource, lasYJHKsource, reliableDxsSource, reliableLasPointSource WSA Default point/extended source K aperture corrected mag (2.0 arcsec aperture diameter) real 4 mag -0.9999995e9 PHOT_MAG
kAperMag3 dxsSource, lasSource WSA Default point/extended source K aperture corrected mag (2.0 arcsec aperture diameter)
If in doubt use this flux estimator
real 4 mag -0.9999995e9 PHOT_MAG
kAperMag3 reliableUdsSource WSA Default point/extended source K mag, no aperture correction applied real 4 mag -0.9999995e9 PHOT_MAG
kAperMag3 udsSource WSA Default point/extended source K mag, no aperture correction applied
If in doubt use this flux estimator
real 4 mag -0.9999995e9 PHOT_MAG
kAperMag3Err dxsJKsource, dxsSource, lasExtendedSource, lasPointSource, lasSource, lasYJHKsource, reliableDxsSource, reliableLasPointSource, reliableUdsSource, udsSource WSA Error in default point/extended source K mag (2.0 arcsec aperture diameter) real 4 mag -0.9999995e9 ERROR
kAperMag4 dxsJKsource, dxsSource, lasExtendedSource, lasPointSource, lasSource, lasYJHKsource, reliableDxsSource, reliableLasPointSource WSA Extended source K aperture corrected mag (2.8 arcsec aperture diameter) real 4 mag -0.9999995e9 PHOT_MAG
kAperMag4 reliableUdsSource, udsSource WSA Extended source K mag, no aperture correction applied real 4 mag -0.9999995e9 PHOT_MAG
kAperMag4Err dxsJKsource, dxsSource, lasExtendedSource, lasPointSource, lasSource, lasYJHKsource, reliableDxsSource, reliableLasPointSource, reliableUdsSource, udsSource WSA Error in extended source K mag (2.8 arcsec aperture diameter) real 4 mag -0.9999995e9 ERROR
kAperMag6 dxsJKsource, dxsSource, lasExtendedSource, lasPointSource, lasSource, lasYJHKsource, reliableDxsSource, reliableLasPointSource WSA Extended source K aperture corrected mag (5.7 arcsec aperture diameter) real 4 mag -0.9999995e9 PHOT_MAG
kAperMag6 reliableUdsSource, udsSource WSA Extended source K mag, no aperture correction applied real 4 mag -0.9999995e9 PHOT_MAG
kAperMag6Err dxsJKsource, dxsSource, lasExtendedSource, lasPointSource, lasSource, lasYJHKsource, reliableDxsSource, reliableLasPointSource, reliableUdsSource, udsSource WSA Error in extended source K mag (5.7 arcsec aperture diameter) real 4 mag -0.9999995e9 ERROR
kaStrat dxsVarFrameSetInfo, udsVarFrameSetInfo WSA Strateva parameter, a, in fit to photometric rms vs magnitude in K band, see Sesar et al. 2007. real 4   -0.9999995e9  
The best fit solution to the expected RMS for all objects in the frameset. Objects were binned in ranges of magnitude and the median RMS (after clipping out variable objects using the median-absolute deviation) was calculated. The Strateva function $\zeta(m)>=a+b\,10^{0.4m}+c\,10^{0.8m}$ was fit, where $\zeta(m)$ is the expected RMS as a function of magnitude. The chi-squared and number of degrees of freedom are also calculated. This technique was used in Sesar et al. 2007, AJ, 134, 2236.
kbestAper dxsVariability, udsVariability WSA Best aperture (1-6) for photometric statistics in the K band int 4   -9999  
Aperture magnitude (1-6) which gives the lowest RMS for the object. All apertures have the appropriate aperture correction. This can give better values in crowded regions than aperMag3 (see Irwin et al. 2007, MNRAS, 375, 1449)
kbStrat dxsVarFrameSetInfo, udsVarFrameSetInfo WSA Strateva parameter, b, in fit to photometric rms vs magnitude in K band, see Sesar et al. 2007. real 4   -0.9999995e9  
The best fit solution to the expected RMS for all objects in the frameset. Objects were binned in ranges of magnitude and the median RMS (after clipping out variable objects using the median-absolute deviation) was calculated. The Strateva function $\zeta(m)>=a+b\,10^{0.4m}+c\,10^{0.8m}$ was fit, where $\zeta(m)$ is the expected RMS as a function of magnitude. The chi-squared and number of degrees of freedom are also calculated. This technique was used in Sesar et al. 2007, AJ, 134, 2236.
kchiSq dxsVarFrameSetInfo, udsVarFrameSetInfo WSA Goodness of fit of Strateva function to photometric data in K band real 4   -0.9999995e9  
The best fit solution to the expected RMS for all objects in the frameset. Objects were binned in ranges of magnitude and the median RMS (after clipping out variable objects using the median-absolute deviation) was calculated. The Strateva function $\zeta(m)>=a+b\,10^{0.4m}+c\,10^{0.8m}$ was fit, where $\zeta(m)$ is the expected RMS as a function of magnitude. The chi-squared and number of degrees of freedom are also calculated. This technique was used in Sesar et al. 2007, AJ, 134, 2236.
kchiSqpd dxsVariability, udsVariability WSA Chi square (per degree of freedom) fit to data (mean and expected rms) real 4   0.9999995e9  
The photometry is calculated for good observations in the best aperture. The mean, rms, median and median absolute deviation are quite standard. The skewness is calculated as in Sesar et al. 2007, AJ, 134, 2236. In each frameset, the mean and rms are used to derive a fit to the expected rms as a function of magnitude. The parameters for the fit are stored in VarFrameSetInfo and the value for the source is in expRms. This is subtracted from the rms in quadrature to get the intrinsic rms: the variability of the object beyond the noise in the system. The chi-squared is calculated, assuming a non-variable object which has the noise from the expected-rms and mean calculated as above. The probVar statistic assumes a chi-squared distribution with the correct number of degrees of freedom. The varClass statistic is 1, if the probVar>0.9 and intrinsicRMS/expectedRMS>3.
kClass dxsJKsource, dxsSource, dxsSourceRemeasurement, lasExtendedSource, lasPointSource, lasSource, lasSourceRemeasurement, lasYJHKsource, reliableDxsSource, reliableLasPointSource, reliableUdsSource, udsSource, udsSourceRemeasurement WSA discrete image classification flag in K smallint 2   -9999 CLASS_MISC
kClassStat dxsJKsource, dxsSource, dxsSourceRemeasurement, lasExtendedSource, lasPointSource, lasSource, lasSourceRemeasurement, lasYJHKsource, reliableDxsSource, reliableLasPointSource, udsSourceRemeasurement WSA N(0,1) stellarness-of-profile statistic in K real 4   -0.9999995e9 STAT_PROP
kClassStat reliableUdsSource, udsSource WSA S-Extractor classification statistic in K real 4   -0.9999995e9 STAT_PROP
kcStrat dxsVarFrameSetInfo, udsVarFrameSetInfo WSA Strateva parameter, c, in fit to photometric rms vs magnitude in K band, see Sesar et al. 2007. real 4   -0.9999995e9  
The best fit solution to the expected RMS for all objects in the frameset. Objects were binned in ranges of magnitude and the median RMS (after clipping out variable objects using the median-absolute deviation) was calculated. The Strateva function $\zeta(m)>=a+b\,10^{0.4m}+c\,10^{0.8m}$ was fit, where $\zeta(m)$ is the expected RMS as a function of magnitude. The chi-squared and number of degrees of freedom are also calculated. This technique was used in Sesar et al. 2007, AJ, 134, 2236.
kDeblend dxsJKsource, dxsSourceRemeasurement, lasExtendedSource, lasPointSource, lasSourceRemeasurement, lasYJHKsource, reliableDxsSource, reliableLasPointSource, reliableUdsSource, udsSource, udsSourceRemeasurement WSA placeholder flag indicating parent/child relation in K int 4   -99999999 CODE_MISC
kDeblend dxsSource, lasSource WSA placeholder flag indicating parent/child relation in K int 4   -99999999 CODE_MISC
This CASU pipeline processing source extraction flag is a placeholder only, and is always set to zero in all passbands in the merged source lists. If you need to know when a particular image detection is a component of a deblend or not, test bit 4 of attribute ppErrBits (see corresponding glossary entry) which is set by WFAU's post-processing software based on testing the areal profiles aprof2-8 (these are set by CASU to -1 for deblended components, or positive values for non-deblended detections). We encode this in an information bit of ppErrBits for convenience when querying the merged source tables.
kEll dxsJKsource, dxsSource, dxsSourceRemeasurement, lasExtendedSource, lasPointSource, lasSource, lasSourceRemeasurement, lasYJHKsource, reliableDxsSource, reliableLasPointSource, reliableUdsSource, udsSource, udsSourceRemeasurement WSA 1-b/a, where a/b=semi-major/minor axes in K real 4   -0.9999995e9 PHYS_ELLIPTICITY
keNum dxsJKmergeLog, dxsMergeLog, lasMergeLog, lasYJHKmergeLog, udsMergeLog WSA the extension number of this K frame tinyint 1     NUMBER
kErrBits dxsJKsource, dxsSourceRemeasurement, lasExtendedSource, lasPointSource, lasSourceRemeasurement, lasYJHKsource, reliableDxsSource, reliableLasPointSource, reliableUdsSource, udsSourceRemeasurement WSA processing warning/error bitwise flags in K int 4   -99999999 CODE_MISC
kErrBits dxsSource, lasSource WSA processing warning/error bitwise flags in K int 4   -99999999 CODE_MISC
Apparently not actually an error bit flag, but a count of the number of zero confidence pixels in the default (2 arcsec diameter) aperture.
kErrBits udsSource WSA processing warning/error bitwise flags in K int 4   -99999999 CODE_MISC
This uses the FLAGS attribute in SE. The individual bit flags that this can be decomposed into are as follows:
Bit FlagMeaning
1The object has neighbours, bright enough and close enough to significantly bias the MAG_AUTO photometry or bad pixels (more than 10% of photometry affected).
2The object was originally blended with another
4At least one pixel is saturated (or very close to)
8The object is truncated (too close to an image boundary)
16Object's aperture data are incomplete or corrupted
32Object's isophotal data are imcomplete or corrupted. This is an old flag inherited from SE v1.0, and is kept for compatability reasons. It doesn't have any consequence for the extracted parameters.
64Memory overflow occurred during deblending
128Memory overflow occurred during extraction

kEta dxsJKsource, lasExtendedSource, lasPointSource, lasYJHKsource, reliableDxsSource, reliableLasPointSource, reliableUdsSource WSA Offset of K detection from master position (+north/-south) real 4 arcsec -0.9999995e9 POS_EQ_DEC_OFF
kEta dxsSource, lasSource, udsSource WSA Offset of K detection from master position (+north/-south) real 4 arcsec -0.9999995e9 POS_EQ_DEC_OFF
When associating individual passband detections into merged sources, a generous (in terms of the positional uncertainties) pairing radius of 2.0 (UKIDSS LAS and GPS; also non-survey programmes) or 1.0 (UKIDSS GPS, DXS and UDS) arcseconds is used, the higher value enabling pairing of moving sources when epoch separations may be several years. Such a large association criterion can of course lead to spurious pairings in the merged sources lists (although note that between passband pairs, handshake pairing is done: both passbands must agree that the candidate pair is their nearest neighbour for the pair to propagate through into the merged source table). In order to help filter spurious pairings out, and assuming that large positional offsets between the different passband detections are not expected (e.g. because of source motion, or larger than usual positional uncertainties) then the attributes Xi and Eta can be used to filter any pairings with suspiciously large offsets in one or more bands. For example, for a clean sample of QSOs from the LAS, you might wish to insist that the offsets in the selected sample are all below 1 arcsecond: simply add WHERE clauses into the SQL sample selection script to exclude all Xi and Eta values larger than the threshold you want.
kexpML dxsVarFrameSetInfo, udsVarFrameSetInfo WSA Expected magnitude limit of frameSet in this in K band. real 4   -0.9999995e9  
The expected magnitude limit of an intermediate stack, based on the total exposure time. expML=Filter.oneSecML+1.25*log10(totalExpTime). Since different intermediate stacks can have different exposure times, the totalExpTime is the minimum, as long as the number of stacks with this minimum make up 10% of the total. This is a more conservative treatment than just taking the mean or median total exposure time.
kExpRms dxsVariability, udsVariability WSA Rms calculated from polynomial fit to minimum RMS as a function of magnitude in K band real 4 mag -0.9999995e9  
The photometry is calculated for good observations in the best aperture. The mean, rms, median and median absolute deviation are quite standard. The skewness is calculated as in Sesar et al. 2007, AJ, 134, 2236. In each frameset, the mean and rms are used to derive a fit to the expected rms as a function of magnitude. The parameters for the fit are stored in VarFrameSetInfo and the value for the source is in expRms. This is subtracted from the rms in quadrature to get the intrinsic rms: the variability of the object beyond the noise in the system. The chi-squared is calculated, assuming a non-variable object which has the noise from the expected-rms and mean calculated as above. The probVar statistic assumes a chi-squared distribution with the correct number of degrees of freedom. The varClass statistic is 1, if the probVar>0.9 and intrinsicRMS/expectedRMS>3.
kGausig dxsJKsource, dxsSource, dxsSourceRemeasurement, lasExtendedSource, lasPointSource, lasSource, lasSourceRemeasurement, lasYJHKsource, reliableDxsSource, reliableLasPointSource, reliableUdsSource, udsSource, udsSourceRemeasurement WSA RMS of axes of ellipse fit in K real 4 pixels -0.9999995e9 MORPH_PARAM
kHallMag dxsJKsource, dxsSource, lasExtendedSource, lasPointSource, lasSource, lasYJHKsource, reliableDxsSource, reliableLasPointSource WSA Total point source K mag real 4 mag -0.9999995e9 PHOT_MAG
kHallMag reliableUdsSource, udsSource WSA Not available in SE output real 4 mag -0.9999995e9 PHOT_MAG
kHallMagErr dxsJKsource, dxsSource, lasExtendedSource, lasPointSource, lasSource, lasYJHKsource, reliableDxsSource, reliableLasPointSource WSA Error in total point source K mag real 4 mag -0.9999995e9 ERROR
kHallMagErr reliableUdsSource, udsSource WSA Not available in SE output real 4 mag -0.9999995e9 ERROR
kIntRms dxsVariability, udsVariability WSA Intrinsic rms in K-band real 4 mag -0.9999995e9  
The photometry is calculated for good observations in the best aperture. The mean, rms, median and median absolute deviation are quite standard. The skewness is calculated as in Sesar et al. 2007, AJ, 134, 2236. In each frameset, the mean and rms are used to derive a fit to the expected rms as a function of magnitude. The parameters for the fit are stored in VarFrameSetInfo and the value for the source is in expRms. This is subtracted from the rms in quadrature to get the intrinsic rms: the variability of the object beyond the noise in the system. The chi-squared is calculated, assuming a non-variable object which has the noise from the expected-rms and mean calculated as above. The probVar statistic assumes a chi-squared distribution with the correct number of degrees of freedom. The varClass statistic is 1, if the probVar>0.9 and intrinsicRMS/expectedRMS>3.
kMag dxsSourceRemeasurement, lasSourceRemeasurement, udsSourceRemeasurement WSA K mag (as appropriate for this merged source) real 4 mag -0.9999995e9 PHOT_MAG
kMag ukirtFSstars WSA K band total magnitude on the MKO(UFTI) system real 4 mag   PHOT_INT-MAG
kMag ukirtFSstars WSACalib K band total magnitude on the MKO(UFTI) system real 4 mag   PHOT_INT-MAG
kMagErr dxsSourceRemeasurement, lasSourceRemeasurement, udsSourceRemeasurement WSA Error in K mag real 4 mag -0.9999995e9 ERROR
kMagErr ukirtFSstars WSA K band magnitude error real 4 mag   ERROR
kMagErr ukirtFSstars WSACalib K band magnitude error real 4 mag   ERROR
kMagMAD dxsVariability, udsVariability WSA Median Absolute Deviation of K magnitude real 4 mag -0.9999995e9  
The photometry is calculated for good observations in the best aperture. The mean, rms, median and median absolute deviation are quite standard. The skewness is calculated as in Sesar et al. 2007, AJ, 134, 2236. In each frameset, the mean and rms are used to derive a fit to the expected rms as a function of magnitude. The parameters for the fit are stored in VarFrameSetInfo and the value for the source is in expRms. This is subtracted from the rms in quadrature to get the intrinsic rms: the variability of the object beyond the noise in the system. The chi-squared is calculated, assuming a non-variable object which has the noise from the expected-rms and mean calculated as above. The probVar statistic assumes a chi-squared distribution with the correct number of degrees of freedom. The varClass statistic is 1, if the probVar>0.9 and intrinsicRMS/expectedRMS>3.
kMagRms dxsVariability, udsVariability WSA rms of K magnitude real 4 mag -0.9999995e9  
The photometry is calculated for good observations in the best aperture. The mean, rms, median and median absolute deviation are quite standard. The skewness is calculated as in Sesar et al. 2007, AJ, 134, 2236. In each frameset, the mean and rms are used to derive a fit to the expected rms as a function of magnitude. The parameters for the fit are stored in VarFrameSetInfo and the value for the source is in expRms. This is subtracted from the rms in quadrature to get the intrinsic rms: the variability of the object beyond the noise in the system. The chi-squared is calculated, assuming a non-variable object which has the noise from the expected-rms and mean calculated as above. The probVar statistic assumes a chi-squared distribution with the correct number of degrees of freedom. The varClass statistic is 1, if the probVar>0.9 and intrinsicRMS/expectedRMS>3.
kmaxCadence dxsVariability, udsVariability WSA maximum gap between observations real 4 days -0.9999995e9  
The observations are classified as good, flagged or missing. Flagged observations are ones where the object has a ppErrBit flag. Missing observations are observations of the part of the sky that include the position of the object, but had no detection. All the statistics are calculated from good observations. The cadence parameters give the minimum, median and maximum time between observations, which is useful to know if the data could be used to find a particular type of variable.
kmeanMag dxsVariability, udsVariability WSA Mean K magnitude real 4 mag -0.9999995e9  
The photometry is calculated for good observations in the best aperture. The mean, rms, median and median absolute deviation are quite standard. The skewness is calculated as in Sesar et al. 2007, AJ, 134, 2236. In each frameset, the mean and rms are used to derive a fit to the expected rms as a function of magnitude. The parameters for the fit are stored in VarFrameSetInfo and the value for the source is in expRms. This is subtracted from the rms in quadrature to get the intrinsic rms: the variability of the object beyond the noise in the system. The chi-squared is calculated, assuming a non-variable object which has the noise from the expected-rms and mean calculated as above. The probVar statistic assumes a chi-squared distribution with the correct number of degrees of freedom. The varClass statistic is 1, if the probVar>0.9 and intrinsicRMS/expectedRMS>3.
kmedCadence dxsVariability, udsVariability WSA median gap between observations real 4 days -0.9999995e9  
The observations are classified as good, flagged or missing. Flagged observations are ones where the object has a ppErrBit flag. Missing observations are observations of the part of the sky that include the position of the object, but had no detection. All the statistics are calculated from good observations. The cadence parameters give the minimum, median and maximum time between observations, which is useful to know if the data could be used to find a particular type of variable.
kmedianMag dxsVariability, udsVariability WSA Median K magnitude real 4 mag -0.9999995e9  
The photometry is calculated for good observations in the best aperture. The mean, rms, median and median absolute deviation are quite standard. The skewness is calculated as in Sesar et al. 2007, AJ, 134, 2236. In each frameset, the mean and rms are used to derive a fit to the expected rms as a function of magnitude. The parameters for the fit are stored in VarFrameSetInfo and the value for the source is in expRms. This is subtracted from the rms in quadrature to get the intrinsic rms: the variability of the object beyond the noise in the system. The chi-squared is calculated, assuming a non-variable object which has the noise from the expected-rms and mean calculated as above. The probVar statistic assumes a chi-squared distribution with the correct number of degrees of freedom. The varClass statistic is 1, if the probVar>0.9 and intrinsicRMS/expectedRMS>3.
kmfID dxsJKmergeLog, dxsMergeLog, lasMergeLog, lasYJHKmergeLog, udsMergeLog WSA the UID of the relevant K multiframe bigint 8     ID_FRAME
kminCadence dxsVariability, udsVariability WSA minimum gap between observations real 4 days -0.9999995e9  
The observations are classified as good, flagged or missing. Flagged observations are ones where the object has a ppErrBit flag. Missing observations are observations of the part of the sky that include the position of the object, but had no detection. All the statistics are calculated from good observations. The cadence parameters give the minimum, median and maximum time between observations, which is useful to know if the data could be used to find a particular type of variable.
knDof dxsVarFrameSetInfo, udsVarFrameSetInfo WSA Number of degrees of freedom of photometric fit in K band. smallint 2   -9999  
The best fit solution to the expected RMS for all objects in the frameset. Objects were binned in ranges of magnitude and the median RMS (after clipping out variable objects using the median-absolute deviation) was calculated. The Strateva function $\zeta(m)>=a+b\,10^{0.4m}+c\,10^{0.8m}$ was fit, where $\zeta(m)$ is the expected RMS as a function of magnitude. The chi-squared and number of degrees of freedom are also calculated. This technique was used in Sesar et al. 2007, AJ, 134, 2236.
kndof dxsVariability, udsVariability WSA Number of degrees of freedom for chisquare int 4   -9999  
The photometry is calculated for good observations in the best aperture. The mean, rms, median and median absolute deviation are quite standard. The skewness is calculated as in Sesar et al. 2007, AJ, 134, 2236. In each frameset, the mean and rms are used to derive a fit to the expected rms as a function of magnitude. The parameters for the fit are stored in VarFrameSetInfo and the value for the source is in expRms. This is subtracted from the rms in quadrature to get the intrinsic rms: the variability of the object beyond the noise in the system. The chi-squared is calculated, assuming a non-variable object which has the noise from the expected-rms and mean calculated as above. The probVar statistic assumes a chi-squared distribution with the correct number of degrees of freedom. The varClass statistic is 1, if the probVar>0.9 and intrinsicRMS/expectedRMS>3.
knFlaggedObs dxsVariability WSA Number of detections in K band flagged as potentially spurious by dxsDetection.ppErrBits int 4   0  
The observations are classified as good, flagged or missing. Flagged observations are ones where the object has a ppErrBit flag. Missing observations are observations of the part of the sky that include the position of the object, but had no detection. All the statistics are calculated from good observations. The cadence parameters give the minimum, median and maximum time between observations, which is useful to know if the data could be used to find a particular type of variable.
knFlaggedObs udsVariability WSA Number of detections in K band flagged as potentially spurious by udsDetection.ppErrBits int 4   0  
The observations are classified as good, flagged or missing. Flagged observations are ones where the object has a ppErrBit flag. Missing observations are observations of the part of the sky that include the position of the object, but had no detection. All the statistics are calculated from good observations. The cadence parameters give the minimum, median and maximum time between observations, which is useful to know if the data could be used to find a particular type of variable.
knGoodObs dxsVariability, udsVariability WSA Number of good detections in K band int 4   0  
The observations are classified as good, flagged or missing. Flagged observations are ones where the object has a ppErrBit flag. Missing observations are observations of the part of the sky that include the position of the object, but had no detection. All the statistics are calculated from good observations. The cadence parameters give the minimum, median and maximum time between observations, which is useful to know if the data could be used to find a particular type of variable.
knMissingObs dxsVariability, udsVariability WSA Number of K band frames that this object should have been detected on and was not int 4   0  
The observations are classified as good, flagged or missing. Flagged observations are ones where the object has a ppErrBit flag. Missing observations are observations of the part of the sky that include the position of the object, but had no detection. All the statistics are calculated from good observations. The cadence parameters give the minimum, median and maximum time between observations, which is useful to know if the data could be used to find a particular type of variable.
kObjID dxsJKsource, lasExtendedSource, lasPointSource, lasYJHKsource, reliableDxsSource, reliableLasPointSource, reliableUdsSource WSA DEPRECATED (do not use) bigint 8   -99999999 ID_NUMBER
kObjID dxsSource, dxsSourceRemeasurement, lasSource, lasSourceRemeasurement, udsSource, udsSourceRemeasurement WSA DEPRECATED (do not use) bigint 8   -99999999 ID_NUMBER
This attribute is included in source tables for historical reasons, but it's use is not recommended unless you really know what you are doing. In general, if you need to look up detection table attributes for a source in a given passband that are not in the source table, you should make an SQL join between source, mergelog and detection using the primary key attribute frameSetID and combination multiframeID, extNum, seqNum to associate related rows between the three tables. See the Q&A example SQL for more information.
kPA dxsJKsource, dxsSource, dxsSourceRemeasurement, lasExtendedSource, lasPointSource, lasSource, lasSourceRemeasurement, lasYJHKsource, reliableDxsSource, reliableLasPointSource, reliableUdsSource, udsSource, udsSourceRemeasurement WSA ellipse fit celestial orientation in K real 4 Degrees -0.9999995e9 POS_POS-ANG
kPetroMag dxsJKsource, dxsSource, lasExtendedSource, lasPointSource, lasSource, lasYJHKsource, reliableDxsSource, reliableLasPointSource, reliableUdsSource, udsSource WSA Extended source K mag (Petrosian) real 4 mag -0.9999995e9 PHOT_MAG
kPetroMagErr dxsJKsource, dxsSource, lasExtendedSource, lasPointSource, lasSource, lasYJHKsource, reliableDxsSource, reliableLasPointSource, reliableUdsSource, udsSource WSA Error in extended source K mag (Petrosian) real 4 mag -0.9999995e9 ERROR
kppErrBits dxsJKsource, dxsSourceRemeasurement, lasExtendedSource, lasPointSource, lasSourceRemeasurement, lasYJHKsource, reliableDxsSource, reliableLasPointSource, reliableUdsSource, udsSource, udsSourceRemeasurement WSA additional WFAU post-processing error bits in K int 4   0 CODE_MISC
kppErrBits dxsSource, lasSource WSA additional WFAU post-processing error bits in K int 4   0 CODE_MISC
Post-processing error quality bit flags assigned (NB: from UKIDSS DR2 release onwards) in the WSA curation procedure for survey data. From least to most significant byte in the 4-byte integer attribute byte 0 (bits 0 to 7) corresponds to information on generally innocuous conditions that are nonetheless potentially significant as regards the integrity of that detection; byte 1 (bits 8 to 15) corresponds to warnings; byte 2 (bits 16 to 23) corresponds to important warnings; and finally byte 3 (bits 24 to 31) corresponds to severe warnings:
ByteBitDetection quality issue Threshold or bit mask Applies to
DecimalHexadecimal
0 4 Deblended 16 0x00000010 LAS, GCS, GPS, DXS
0 6 Bad pixel(s) in default aperture 64 0x00000040 LAS, GCS, GPS, DXS
2 16 Close to saturated 65536 0x00010000 LAS, GCS, GPS
2 19 Possible crosstalk artefact/contamination 524288 0x00080000 LAS, GCS, DXS
2 22 Lies within a dither offset of the stacked frame boundary 4194304 0x00400000 LAS, GCS, GPS, DXS

In this way, the higher the error quality bit flag value, the more likely it is that the detection is spurious. The decimal threshold (column 4) gives the minimum value of the quality flag for a detection having the given condition (since other bits in the flag may be set also; the corresponding hexadecimal value, where each digit corresponds to 4 bits in the flag, can be easier to compute when writing SQL queries to test for a given condition). For example, to exclude all K band sources in the LAS having any error quality condition other than informational ones, include a predicate ... AND kppErrBits ≤ 255. See the SQL Cookbook and other online pages for further information.
kprobVar dxsVariability, udsVariability WSA Probability of variable from chi-square (and other data) real 4   0.9999995e9  
The photometry is calculated for good observations in the best aperture. The mean, rms, median and median absolute deviation are quite standard. The skewness is calculated as in Sesar et al. 2007, AJ, 134, 2236. In each frameset, the mean and rms are used to derive a fit to the expected rms as a function of magnitude. The parameters for the fit are stored in VarFrameSetInfo and the value for the source is in expRms. This is subtracted from the rms in quadrature to get the intrinsic rms: the variability of the object beyond the noise in the system. The chi-squared is calculated, assuming a non-variable object which has the noise from the expected-rms and mean calculated as above. The probVar statistic assumes a chi-squared distribution with the correct number of degrees of freedom. The varClass statistic is 1, if the probVar>0.9 and intrinsicRMS/expectedRMS>3.
kPsfMag dxsJKsource, dxsSource, lasExtendedSource, lasPointSource, lasSource, lasYJHKsource, reliableDxsSource, reliableLasPointSource WSA Point source profile-fitted K mag real 4 mag -0.9999995e9 PHOT_MAG
kPsfMag reliableUdsSource, udsSource WSA Not available in SE output real 4 mag -0.9999995e9 PHOT_MAG
kPsfMagErr dxsJKsource, dxsSource, lasExtendedSource, lasPointSource, lasSource, lasYJHKsource, reliableDxsSource, reliableLasPointSource WSA Error in point source profile-fitted K mag real 4 mag -0.9999995e9 ERROR
kPsfMagErr reliableUdsSource, udsSource WSA Not available in SE output real 4 mag -0.9999995e9 ERROR
kronFlux UKIDSSDetection WSA flux within circular aperture to k × r_k ; k = 2 real 4 ADU   PHOT_INTENSITY_ADU
kronFlux dxsDetection, dxsListRemeasurement, gcsDetection, gcsListRemeasurement, gpsDetection, gpsListRemeasurement, lasDetection, lasListRemeasurement, udsListRemeasurement WSA flux within circular aperture to k × r_k ; k = 2 {catalogue TType keyword: Kron_flux} real 4 ADU   PHOT_INTENSITY_ADU
kronFlux ptsDetection WSATransit flux within circular aperture to k × r_k ; k = 2 {catalogue TType keyword: Kron_flux} real 4 ADU   PHOT_INTENSITY_ADU
kronFlux udsDetection WSA flux within Kron radius circular aperture (SE: FLUX_AUTO) {catalogue TType keyword: Kron_flux} real 4 ADU   PHOT_INTENSITY_ADU
kronFluxErr UKIDSSDetection WSA error on Kron flux real 4 ADU   ERROR
kronFluxErr dxsDetection, dxsListRemeasurement, gcsDetection, gcsListRemeasurement, gpsDetection, gpsListRemeasurement, lasDetection, lasListRemeasurement, udsListRemeasurement WSA error on Kron flux {catalogue TType keyword: Kron_flux_err} real 4 ADU   ERROR
kronFluxErr ptsDetection WSATransit error on Kron flux {catalogue TType keyword: Kron_flux_err} real 4 ADU   ERROR
kronFluxErr udsDetection WSA error on Kron flux (SE: FLUXERR_AUTO) {catalogue TType keyword: Kron_flux_err} real 4 ADU   ERROR
kronMag dxsDetection, dxsListRemeasurement, gcsDetection, gcsListRemeasurement, gpsDetection, gpsListRemeasurement, lasDetection, lasListRemeasurement, UKIDSSDetection, udsDetection, udsListRemeasurement WSA Calibrated Kron magnitude within circular aperture r_k real 4 mag   PHOT_INT-MAG
kronMag ptsDetection WSATransit Calibrated Kron magnitude within circular aperture r_k real 4 mag   PHOT_INT-MAG
kronMagErr dxsDetection, dxsListRemeasurement, gcsDetection, gcsListRemeasurement, gpsDetection, gpsListRemeasurement, lasDetection, lasListRemeasurement, UKIDSSDetection, udsDetection, udsListRemeasurement WSA error on calibrated Kron magnitude real 4 mag   ERROR
kronMagErr ptsDetection WSATransit error on calibrated Kron magnitude real 4 mag   ERROR
kronRad UKIDSSDetection WSA r_k as defined in Bertin and Arnouts 1996 A&A Supp 117 393 real 4 pixels   EXTENSION_RAD
kronRad dxsDetection, dxsListRemeasurement, gcsDetection, gcsListRemeasurement, gpsDetection, gpsListRemeasurement, lasDetection, lasListRemeasurement, udsListRemeasurement WSA r_k as defined in Bertin and Arnouts 1996 A&A Supp 117 393 {catalogue TType keyword: Kron_radius} real 4 pixels   EXTENSION_RAD
kronRad ptsDetection WSATransit r_k as defined in Bertin and Arnouts 1996 A&A Supp 117 393 {catalogue TType keyword: Kron_radius} real 4 pixels   EXTENSION_RAD
kronRad udsDetection WSA Kron radius as defined in SE by Graham and Driver (2005) (SE: KRON_RADIUS*A_IMAGE) {catalogue TType keyword: Kron_radius}
r_k = ∑R² I(R) / ∑R I(R)
real 4 pixels   EXTENSION_RAD
Since <FLUX>_RADIUS is expressed in multiples of the major axis, <FLUX>_RADIUS is multiplied by A_IMAGE to convert to pixels.
kSeqNum dxsJKsource, dxsSource, lasExtendedSource, lasPointSource, lasSource, lasYJHKsource, reliableDxsSource, reliableLasPointSource, reliableUdsSource, udsSource WSA the running number of the K detection int 4   -99999999 ID_NUMBER
kSeqNum dxsSourceRemeasurement, lasSourceRemeasurement, udsSourceRemeasurement WSA the running number of the K remeasurement int 4   -99999999 ID_NUMBER
kSerMag2D dxsJKsource, dxsSource, lasExtendedSource, lasPointSource, lasSource, lasYJHKsource, reliableDxsSource, reliableLasPointSource WSA Extended source K mag (profile-fitted) real 4 mag -0.9999995e9 PHOT_MAG
kSerMag2D reliableUdsSource, udsSource WSA Not available in SE output real 4 mag -0.9999995e9 PHOT_MAG
kSerMag2DErr dxsJKsource, dxsSource, lasExtendedSource, lasPointSource, lasSource, lasYJHKsource, reliableDxsSource, reliableLasPointSource WSA Error in extended source K mag (profile-fitted) real 4 mag -0.9999995e9 ERROR
kSerMag2DErr reliableUdsSource, udsSource WSA Not available in SE output real 4 mag -0.9999995e9 ERROR
kskewness dxsVariability, udsVariability WSA Skewness in K band (see Sesar et al. 2007) real 4   -0.9999995e9  
The photometry is calculated for good observations in the best aperture. The mean, rms, median and median absolute deviation are quite standard. The skewness is calculated as in Sesar et al. 2007, AJ, 134, 2236. In each frameset, the mean and rms are used to derive a fit to the expected rms as a function of magnitude. The parameters for the fit are stored in VarFrameSetInfo and the value for the source is in expRms. This is subtracted from the rms in quadrature to get the intrinsic rms: the variability of the object beyond the noise in the system. The chi-squared is calculated, assuming a non-variable object which has the noise from the expected-rms and mean calculated as above. The probVar statistic assumes a chi-squared distribution with the correct number of degrees of freedom. The varClass statistic is 1, if the probVar>0.9 and intrinsicRMS/expectedRMS>3.
ktotalPeriod dxsVariability, udsVariability WSA total period of observations (last obs-first obs) real 4 days -0.9999995e9  
The observations are classified as good, flagged or missing. Flagged observations are ones where the object has a ppErrBit flag. Missing observations are observations of the part of the sky that include the position of the object, but had no detection. All the statistics are calculated from good observations. The cadence parameters give the minimum, median and maximum time between observations, which is useful to know if the data could be used to find a particular type of variable.
kVarClass dxsVariability, udsVariability WSA Classification of variability in this band smallint 2   -9999  
The photometry is calculated for good observations in the best aperture. The mean, rms, median and median absolute deviation are quite standard. The skewness is calculated as in Sesar et al. 2007, AJ, 134, 2236. In each frameset, the mean and rms are used to derive a fit to the expected rms as a function of magnitude. The parameters for the fit are stored in VarFrameSetInfo and the value for the source is in expRms. This is subtracted from the rms in quadrature to get the intrinsic rms: the variability of the object beyond the noise in the system. The chi-squared is calculated, assuming a non-variable object which has the noise from the expected-rms and mean calculated as above. The probVar statistic assumes a chi-squared distribution with the correct number of degrees of freedom. The varClass statistic is 1, if the probVar>0.9 and intrinsicRMS/expectedRMS>3.
kXi dxsJKsource, lasExtendedSource, lasPointSource, lasYJHKsource, reliableDxsSource, reliableLasPointSource, reliableUdsSource WSA Offset of K detection from master position (+east/-west) real 4 arcsec -0.9999995e9 POS_EQ_RA_OFF
kXi dxsSource, lasSource, udsSource WSA Offset of K detection from master position (+east/-west) real 4 arcsec -0.9999995e9 POS_EQ_RA_OFF
When associating individual passband detections into merged sources, a generous (in terms of the positional uncertainties) pairing radius of 2.0 (UKIDSS LAS and GPS; also non-survey programmes) or 1.0 (UKIDSS GPS, DXS and UDS) arcseconds is used, the higher value enabling pairing of moving sources when epoch separations may be several years. Such a large association criterion can of course lead to spurious pairings in the merged sources lists (although note that between passband pairs, handshake pairing is done: both passbands must agree that the candidate pair is their nearest neighbour for the pair to propagate through into the merged source table). In order to help filter spurious pairings out, and assuming that large positional offsets between the different passband detections are not expected (e.g. because of source motion, or larger than usual positional uncertainties) then the attributes Xi and Eta can be used to filter any pairings with suspiciously large offsets in one or more bands. For example, for a clean sample of QSOs from the LAS, you might wish to insist that the offsets in the selected sample are all below 1 arcsecond: simply add WHERE clauses into the SQL sample selection script to exclude all Xi and Eta values larger than the threshold you want.



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14/04/2010