SIMPLE = T / conforms to FITS standard BITPIX = 8 / array data type NAXIS = 0 / number of array dimensions EXTEND = T VOCLASS = 'Spectrum-1.0' / VO Data Model TIMESDIM= 's ' / Time SIDim SPECSDIM= 'nm ' / Spectral SIDim FLUXDIM = 'dimensionless' / Flux SDim RADECSYS= 'ICRS ' / ICRS or FK5 EQUINOX = 2000.0 TIMESYS = 'TT ' / Time system SPECSYS = 'HELIOCENTER' VOPUB = 'Polarbase' / VO Publisher authority VORIGHTS= 'Public ' VOREF = 'http://www.ast.obs-mip.fr/projets/espadons/espadons.html' VOPUBID = 'ivo://ov-gso/ssap/polarbase' / VO Publisher ID URI TITLE = '1773698i_u.fts' TELESCOP= 'CFHT ' / Telescope INSTRUME= 'espadons' / Instrument CONTACT = 'Pascal PETIT' EMAIL = 'petit@irap.omp.eu' DATE-OBS= '2015-01-12T15:40:25' / Middle date-time of acquisition (ut) VERSION = '1 ' / Reprocessed HJDUTC = 2457035.15306713 HJDTT = 2457035.15306713 JDUTC = 2457035.15306713 OBJECT = 'Ross 1003' / Source name RA_TARG = '175.436 ' / deg Observer's specified target RA DEC_TARG= '42.752 ' / [deg] Observer's specified target DEC SRCCLASS= 'Star ' / Target or object class SPECTYPE= 'M4.0Ve ' / Object spectral class SNR_MAX = 224.0 / Estimate of signal-to-noise VMAG = 90.7623 / Photometric magnitude # AIRMASS = 1.112 / Observation air mass STOKES = 'I ' / Stokes polarization MREADOUT= 'Normal ' / CCD readout mode MINSTRUM= 'pol ' / Instrument mode HA = 1.058 / Hour angle # FLUX_CAL= 'NOT NORMALIZED' APERTURE= 1.6 / [arcsec] Aperture diameter/Slit width TMID = 57034.65306712966 / [d] MJD mid expsoure TELAPSE = 600.0 / Total elapsed time SPEC_VAL= 708.0 / [angstrom] Characteristic spec coord SPEC_BW = 678.0 / [angstrom] Width of spectrum SPEC_FIL= 2.6 / Gaps between channels END XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / array data type NAXIS = 2 / number of array dimensions NAXIS1 = 12 / length of dimension 1 NAXIS2 = 213758 / length of dimension 2 PCOUNT = 0 / number of group parameters GCOUNT = 1 / number of groups TFIELDS = 3 / number of table fields TTYPE1 = 'AWAV ' TFORM1 = 'E ' TTYPE2 = 'FLUX_NOR' TFORM2 = 'E ' TTYPE3 = 'FLUX_ERR' TFORM3 = 'E ' TDMIN1 = 369.3028869628906 TDMAX1 = 1048.21630859375 TUTYP1 = 'Data.SpectralAxis.Value' TUNIT1 = '1 nm ' TUCD1 = 'em.wl;obs.atmos' TUTYP2 = 'Data.FluxAxis.Value' TUNIT2 = '1.E-26 jy' TUCD2 = '' TUTYP3 = 'Data.FluxAxis.Accuracy.StatError' TUNIT3 = 'c ' TUCD3 = 'phot.flux.density;em...;stat.error' END C;=;Ґ[C䷥; C_9MB>;҆JC]t:;5OC:c|;%CEO;8C3U-;C;;O!C*;蔩Cy;!;mCǻ$;CC;I\C^!;C;Cõ;CG<.>l;"C;'C۞!;6C,;{;sCx:%m;E?Cƻe;0#C(;C`;;C<;gCgd;10CF<(;ٚ;C;zCܹ+v;XuC+^;ڇCvL5;PCŻ;C6;RC\;2C;C_;4C;QP;2CA;");~Ch;aC;m!;XC*];X CuG;zC;DCfC9P;QC;;bCлe};ޕLC<% k; Cj;2C<8ZO;Cܯ;CO; C;;UC;4U;nC49Uf;kC;pC˻ߊ;1C;CI);eHC0!;ϓC{;;yC;V;Ͱ"C;ܐ;PCa,;ARCįW;Cj;&]CF<K;\Cő;aC9l;C+