SIMPLE = T / conforms to FITS standard BITPIX = 8 / array data type NAXIS = 0 / number of array dimensions EXTEND = T DATE = '2020-01-09' / Date this file was written DISPELEM= 'VIS ' / Dispersive element name SPECSYS = 'SOURCE ' / Reference frame for spectral coordinates EXT_OBJ = F / TRUE if extended OBJECT = 'HD061064' / Machine-readable name of the star HNAME = 'HD 61064' / Humane-readable name of the star XSL_ID = 'X0326 ' / X-shooter Spectral Library unique identifier XSL_NAME= 'X0326_V_N' / Internal name for the science spectrum RA = 114.3195416666667 / [deg] Spectroscopic target position (J2000) DEC = -4.110980555555555 / [deg] Spectroscopic target position (J2000) RA_FULL = '07:37:16.69' / [HH:MM:SS.SS] Target position (J2000) DEC_FULL= '-04:06:39.53' / [DD:MM:SS.SS] Target position (J2000) EQUINOX = 2000.0 / Standard FK5 RADECSYS= 'FK5 ' / Coordinate reference frame WAVELMIN= 533.5650551868815 / [nm] Minimum wavelength WAVELMAX= 1019.799419660809 / [nm] Maximum wavelength SPEC_BIN= 0.01499705028912243 / Average spectral coordinate bin size CONTNORM= F / TRUE if normalised to the continuum TOT_FLUX= F / TRUE if photometric conditions FLUXERR = -1.0 / Uncertainty in flux scale (%) SNR = 53.58 / Median signal-to-noise ratio SPEC_RES= 10673.524082 / Reference spectral resolving power ORIGIN = 'ESO ' / European Southern Observatory TELESCOP= 'ESO-VLT-U2' / ESO Telescope designation INSTRUME= 'XSHOOTER' / Instrument used PROG_ID = '084.B-0869(A)' / ESO program identification OBID1 = 482768 / Observation block ID M_EPOCH = F / True if combination of multiple epochs SINGLEXP= F / True if resulting from single exposure OBSTECH = 'ECHELLE,SLIT,NODDING' / Observation technique FLUXCAL = 'UNCALIBRATED' / Quality of flux calibration PRODCATG= 'SCIENCE.SPECTRUM' / Single target 1-dimensional spectrum PROCSOFT= 'xshoo/2.6.8' / Pipeline (unique) identifier NCOMBINE= 2 / Number of raw science data files combined PROV1 = 'XSHOO.2011-02-04T07:33:43.930' / Originating raw science file PROV2 = 'XSHOO.2011-02-04T07:34:38.885' / Originating raw science file EXPTIME = 0.20001 / Integration time TEXPTIME= 0.20001 / Total integration time of all exposures FWHM = 0.59 / Observatory seeing queried from AS MJD-OBS = 55596.31509178 / Start of the observations MJD-END = 55596.31572898747 / End of the observations EXT_AVG = T / Two 1D-spectra averaged CAL_NAME= 'CAL0205_X0326_V_S_I.fits' / Internal name for the response curve CAL_STAR= 'EG274-V11.03' / Spectro-photometric standard star target CAL_RAW1= 'XSHOO.2011-02-04T08:48:15.679' / Originating raw flux-standard file CAL_RAW2= 'XSHOO.2011-02-04T08:52:38.932' / Originating raw flux-standard file FLUX_COR= T / First flux calibration applied LOSS_COR= T / TRUE if correction for slit loss was applied STA_NAME= 'X0326_V_S_F.fits' / Internal name for the wide-slit spectrum STA_RAW1= 'XSHOO.2011-02-04T07:32:28.973' / Originating raw wide-slit file REST_COR= T / TRUE if correction for rest-frame was applied REST_VAL= 50.4 / cz value in km/s BARY_COR= -8.565 / Barycentric radial velocity correction value HAIR_VIS= F / Some narrow spikes in the VIS spectrum NOIS_VIS= F / Noisy VIS spectrum WAVY_VIS= F / Wavy in some part of the VIS spectrum WMIN_VIS= '540 ' / Shortest useful wavelength [in nm] REFERENC= 'Gonneau et al. 2019' / Bibliographic reference CHECKSUM= 'SY6CUY4CSY4CSY4C' / HDU checksum updated 2020-01-09T12:49:37 DATASUM = '0 ' / data unit checksum updated 2020-01-09T12:49:37 END XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / array data type NAXIS = 2 / number of array dimensions NAXIS1 = 12 / length of dimension 1 NAXIS2 = 32423 / length of dimension 2 PCOUNT = 0 / number of group parameters GCOUNT = 1 / number of groups TFIELDS = 3 / number of table fields TTYPE1 = 'WAVE ' TFORM1 = 'E ' TUNIT1 = 'nm ' TTYPE2 = 'FLUX ' TFORM2 = 'E ' TUNIT2 = 'erg cm**(-2) s**(-1) angstrom**(-1)' TTYPE3 = 'ERR ' TFORM3 = 'E ' TUNIT3 = 'erg cm**(-2) s**(-1) angstrom**(-1)' VOCLASS = 'SPECTRUM V1.0' / VO Data Model VOPUB = 'ESO/SAF ' / VO Publishing Authority TITLE = 'xsl_spectrum_X0326_vis' / Data set title OBJECT = 'HD061064' / Machine-readable name of the star RA = 114.3195416666667 / [deg] Spectroscopic target position (J2000) DEC = -4.110980555555555 / [deg] Spectroscopic target position (J2000) RA_FULL = '07:37:16.69' / [HH:MM:SS.SS] Target position (J2000) DEC_FULL= '-04:06:39.53' / [DD:MM:SS.SS] Target position (J2000) APERTURE= 0.000194444444444444 / [deg] Aperture width TELAPSE = 55.05472489167005 / [s] Total elapsed time TMID = 55596.31541038373 / [d] MJD mid exposure SPEC_VAL= 776.6822374238452 / [nm] Mean wavelength SPEC_BW = 486.2343644739275 / [nm] Bandpass Width Wmax - Wmin NELEM = 32423 / Length of data arrays TDMIN1 = 533.5650551868815 / Start in spectral coordinates TDMAX1 = 1019.799419660809 / Stop in spectral coordinates TUTYP1 = 'Spectrum.Data.SpectralAxis.Value' / IVOA data model element field 1 TUCD1 = 'em.wl ' / UCD for field 1 TUTYP2 = 'Spectrum.Data.FluxAxis.Value' / IVOA data model element for field 2 TUCD2 = 'phot.flux.density;em.wl;src.net;stat.uncalib' / UCD for field 2 TUTYP3 = 'Spectrum.Data.FluxAxis.Accuracy.StatError' / IVOA data model field 3 TUCD3 = 'stat.error;phot.flux.density;em.wl;src.net;stat.uncalib' / UCD 3 EXTNAME = 'SPECTRUM' INHERIT = T / Primary header keywords are inherited CHECKSUM= 'i4lql4koi4koi4ko' / HDU checksum updated 2020-01-09T12:49:37 DATASUM = '2277557854' / data unit checksum updated 2020-01-09T12:49:37 END Dd*./UDe .J/.Df/gDg/7l/tDh/xe/nDh/S-/Di//u!Dj//2Dk/Rh/zDl/'/ Dmí̘/1Dn.i/4Do//Dp0
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