SIMPLE = T / Standard FITS Format BITPIX = 8 / Character data NAXIS = 0 / No Image --- just extension(s) EXTEND = T / There are standard extensions ORIGIN = 'xml2fits_v1.95' / Converted from XML-Astrores to FITS e-mail: question@simbad.u-strasbg.fr COMMENT ARG='-rm' LONGSTRN= 'OGIP 1.0' / Long string convention (&/CONTINUE) may be usedDATE = '2023-06-02' / Written on 2023-06-02:15:33:23 (GMT) by: www-data@vizier.astro.unistra.fr ********************************************************** EXCERPT from catalogues stored in VizieR (CDS) with the following conditions: ********************************************************** VizieR Astronomical Server vizier.cds.unistra.fr Date: 2023-06-02T15:33:23 [V7.31] Explanations and Statistics of UCDs: See LINK below In case of problem, please report to: cds-question@unistra.fr INFO = 'protocol=ASU' / # INFO = 'request_date=2023-06-02T15:33:23' / # INFO = 'request_post=https://vizier.cds.unistra.fr//viz-bin/asu-binfits' INFO = 'contact=cds-question@unistra.fr' / # INFO = 'version=7.31' / # INFO = '-out.max=unlimited' / # INFO = 'ivoid=ivo://cds.vizier/j/apjs/235/17' / # INFO = 'publisher=CDS' / # INFO = 'creator=Masini A.' / # INFO = 'related_resource=bibcode:2018ApJS..235...17M' / # INFO = 'landing_page=https://cdsarc.cds.unistra.fr/viz-bin/cat/J/ApJS/235/1&'CONTINUE '7 ' / # INFO = 'publication_id=doi:10.26093/cds/vizier.22350017' / # INFO = 'publication_date=2019-01-07' / # INFO = 'curation_level=RESEARCH' / # INFO = 'rights=https://cds.unistra.fr/vizier-org/licences_vizier.html' / # NuSTAR Extragalactic Surveys: UDS field (Masini+, 2018) END XTENSION= 'BINTABLE' / Binary Table Extension BITPIX = 8 / binary data NAXIS = 2 / Simple 2-D matrix NAXIS1 = 122 / Number of bytes per record NAXIS2 = 67 / Number of records PCOUNT = 0 / Get rid of random parameters GCOUNT = 1 / Only one group (isn't it obvious?) TFIELDS = 22 / Number of data fields (columns) CDS-CAT = 'J/ApJS/235/17' / Catalogue designation in CDS nomenclature EXTNAME = 'J_ApJS_235_17_table7' / Identification of the table CDS-NAME= 'J/ApJS/235/17/table7' / Table name in METAtab NuSTAR UKIDSS Ultra Deep Survey (UDS) catalog UCD__1 = 'meta.id;meta.main' / ................................byte#0 TDISP1 = 'A14 ' / Display Fortran Format TFORM1 = '14A ' / Ascii string TTYPE1 = 'NuSTAR ' / NuSTAR source identifier (JHHMMSS+DDMM.m) (updated by the author) UCD__2 = 'pos.eq.ra;meta.main' / ...............................byte#14 TDISP2 = 'F8.4 ' / Display Fortran Format TFORM2 = 'D ' / 64-bit floating-point (double precision) TTYPE2 = 'RAJ2000 ' / [34/34.9] Right Ascension (J2000) TUNIT2 = 'deg ' / degree UCD__3 = 'pos.eq.dec;meta.main' / ..............................byte#22 TDISP3 = 'F8.4 ' / Display Fortran Format TFORM3 = 'D ' / 64-bit floating-point (double precision) TTYPE3 = 'DEJ2000 ' / [-5.4/-4.7] Declination (J2000) TUNIT3 = 'deg ' / degree UCD__4 = 'phot.flux;em.X-ray' / ................................byte#30 TDISP4 = 'E8.1 ' / Display Fortran Format TFORM4 = 'E ' / 32-bit floating-point (simple precision) TTYPE4 = '_3-24F ' / The 3-24keV band aperture-corrected flux (3) TUNIT4 = 'mW.m**-2' / milliWatt times metre power-2 UCD__5 = 'phot.flux;em.X-ray.soft' / ...........................byte#34 TDISP5 = 'E8.1 ' / Display Fortran Format TFORM5 = 'E ' / 32-bit floating-point (simple precision) TTYPE5 = '_3-8F ' / The 3-8keV band aperture-corrected flux (3) TUNIT5 = 'mW.m**-2' / milliWatt times metre power-2 UCD__6 = 'phot.flux;em.X-ray.hard' / ...........................byte#38 TDISP6 = 'E8.1 ' / Display Fortran Format TFORM6 = 'E ' / 32-bit floating-point (simple precision) TTYPE6 = '_8-24F ' / ?=-99 The 8-24keV band aperture-corrected flux (3) TUNIT6 = 'mW.m**-2' / milliWatt times metre power-2 UCD__7 = 'phot.flux;arith.ratio' / .............................byte#42 TDISP7 = 'F5.2 ' / Display Fortran Format TFORM7 = 'E ' / 32-bit floating-point (simple precision) TTYPE7 = 'HR ' / [-1/1] Hardness ratio (4) UCD__8 = 'meta.id ' / ................................byte#46 TDISP8 = 'A20 ' / Display Fortran Format TFORM8 = '20A ' / Ascii string TTYPE8 = 'XMMID ' / XMM counterpart identifier (SXDS or 3XMM) (5) (link) UCD__9 = 'pos.angDistance' / ................................byte#66 TDISP9 = 'F5.1 ' / Display Fortran Format TFORM9 = 'E ' / 32-bit floating-point (simple precision) TTYPE9 = 'SepNXmm ' / [0.9/28]? Distance between NuSTAR and XMM sources TUNIT9 = 'arcsec ' / second of arc UCD__10 = 'meta.number' / ................................byte#70 TDISP10 = 'I1 ' / Display Fortran Format TFORM10 = 'B ' / unsigned 8-bit integer TTYPE10 = 'Nxmm ' / [0/3] Number of XMM counterparts within 30" UCD__11 = 'meta.id.cross' / ................................byte#71 TDISP11 = 'A3 ' / Display Fortran Format TFORM11 = '3A ' / Ascii string TTYPE11 = 'XUDS ' / ? XUDS catalog counterpart identifier (6) UCD__12 = 'pos.angDistance' / ................................byte#74 TDISP12 = 'F5.1 ' / Display Fortran Format TFORM12 = 'E ' / 32-bit floating-point (simple precision) TTYPE12 = 'SepNX ' / [1.5/29.5]? Distance between NuSTAR and XUDS sources TUNIT12 = 'arcsec ' / second of arc UCD__13 = 'meta.number' / ................................byte#78 TDISP13 = 'I1 ' / Display Fortran Format TFORM13 = 'B ' / unsigned 8-bit integer TTYPE13 = 'Nxuds ' / [0/3] Number of XUDS counterparts within 30" UCD__14 = 'pos.eq.ra' / ................................byte#79 TDISP14 = 'F8.4 ' / Display Fortran Format TFORM14 = 'D ' / 64-bit floating-point (double precision) TTYPE14 = 'RAOdeg ' / ? Optical counterpart Right Ascension (J2000) (7) TUNIT14 = 'deg ' / degree UCD__15 = 'pos.eq.dec' / ................................byte#87 TDISP15 = 'F8.4 ' / Display Fortran Format TFORM15 = 'D ' / 64-bit floating-point (double precision) TTYPE15 = 'DEOdeg ' / ? Optical counterpart Declination (J2000) (7) TUNIT15 = 'deg ' / degree UCD__16 = 'src.redshift' / ................................byte#95 TDISP16 = 'F8.4 ' / Display Fortran Format TFORM16 = 'E ' / 32-bit floating-point (simple precision) TTYPE16 = 'zspec ' / [0.05/3.2]? Optical counterpart spectroscopic redshift (7) UCD__17 = 'src.class' / ................................byte#99 TDISP17 = 'A3 ' / Display Fortran Format TFORM17 = '3A ' / Ascii string TTYPE17 = 'SCl ' / Spectroscopic classification (8) (link) UCD__18 = 'src.redshift' / ................................byte#102 TDISP18 = 'F7.3 ' / Display Fortran Format TFORM18 = 'E ' / 32-bit floating-point (simple precision) TTYPE18 = 'zphot ' / [0.05/3.1]? Optical counterpart photometric redshift (7) UCD__19 = 'src.class' / ................................byte#106 TDISP19 = 'A4 ' / Display Fortran Format TFORM19 = '4A ' / Ascii string TTYPE19 = 'PCl ' / Photometric classification (8) (link) UCD__20 = 'stat.fit.goodness' / ................................byte#110 TDISP20 = 'F7.3 ' / Display Fortran Format TFORM20 = 'E ' / 32-bit floating-point (simple precision) TTYPE20 = '_3-24DETML' / [0/543] The 3-24keV band deblended DET_ML (0 if undetected) UCD__21 = 'stat.fit.goodness' / ................................byte#114 TDISP21 = 'F7.3 ' / Display Fortran Format TFORM21 = 'E ' / 32-bit floating-point (simple precision) TTYPE21 = '_3-8DETML' / [0/421] The 3-8keV band deblended DET_ML (0 if undetected) UCD__22 = 'stat.fit.goodness' / ................................byte#118 TDISP22 = 'F7.3 ' / Display Fortran Format TFORM22 = 'E ' / 32-bit floating-point (simple precision) TTYPE22 = '_8-24DETML' / [0/178.2] 8-24keV band deblended DET_ML (0 if 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