SIMPLE = T / Fits standard BITPIX = -32 / Bits per pixel NAXIS = 1 / Number of axes NAXIS1 = 1023 / Axis length ORIGIN = 'NOAO-IRAF FITS Image Kernel July 1999' / FITS file originator OBJECT = 'HELLAS2XMM_pks0312_13' IRAF-TLM= '18:01:49 (23/10/2003)' / Time of last modification DATE = '2003-10-23T17:01:49' / UT date when this file was written CRVAL1 = 3792. / value of ref pixel CRPIX1 = 1. / Ref. pixel of center of rotation CDELT1 = 4.135 / Binning factor CTYPE1 = 'LINEAR ' / Pixel coordinate system MJD-OBS = 51755.42708990 / MJD start (2000-07-30T10:15:00.567) DATE-OBS= '2000-07-30T10:15:00.566' / Date of observation EXPTIME = 599.9966 / Total integration time EXTEND = F / Extension may be present INSTRUME= 'EFOSC/2.19' / Instrument used OBSERVER= 'UNKNOWN ' / Name of observer PI-COI = 'UNKNOWN ' / Name(s) of proposer(s) TELESCOP= 'ESO-3P6 ' / ESO Telescope Name RA = ' 03:13:36.864' / 03:13:36.8 RA (J2000) pointing (deg) DEC = '-76:49:08.940' / -76:49:08.9 DEC (J2000) pointing (deg)EQUINOX = 2000. / Standard FK5 (years) RA = 'FK5 ' / Coordinate reference frame ST = ' 02:05:28.500' / 02:05:28.500 LST at start (sec) UT = ' 10:14:59.000' / 10:14:59.000 UTC at start (sec) ORIGFILE= 'EFOSC_Spectrum.31.fits' / Original File Name ARCFILE = 'EFOSC.2000-07-30T10:15:00.567.fits' / Archive File Name CHECKSUM= '3I9F39993G9E3999' / ASCII 1's complement checksum CHECKVER= 'COMPLEMENT' / Checksum method TPLNO = 2 / Template number within OB OBS-DID = 'ESO-VLT-DIC.OBS-1.0' / OBS Dictionary OBSERVER= 'UNKNOWN ' / Observer Name PI-NAME = 'UNKNOWN ' / PI-COI name PI-ID = 2285 / ESO internal PI-COI ID HIERARCH ESO OBS TARG NAME = 'XMM_pks0312_x38' / OB target name OBS-GRP = '0 ' / linked blocks OBS-NAME= 'Spec_2.0_gr6_10m' / OB name OBS-ID = -1 / Observation block ID PROG-ID = '65.O-0541(A)' / ESO program identification HIERARCH ESO TPL DID = 'ESO-VLT-DIC.TPL-1.0' / Data dictionary for TPL HIERARCH ESO TPL ID = 'EFOSC_spec_obs_Spectrum' / Template signature IDHIERARCH ESO TPL NAME = 'Spectroscopy' / Template name HIERARCH ESO TPL VERSION = '1.0 ' / Version of the template HIERARCH ESO TPL PRESEQ = 'EFOSC_spec_obs_Spectrum.seq' / Sequencer script HIERARCH ESO TPL NEXP = 1 / Number of exposures within templatHIERARCH ESO TPL EXPNO = 1 / Exposure number within template HIERARCH ESO TEL DID = 'ESO-VLT-DIC.TCS' / Data dictionary for TEL HIERARCH ESO TEL ID = 'v 2.18+ ' / TCS version number HIERARCH ESO TEL DATE = 'not set ' / TCS installation date HIERARCH ESO TEL ALT = 41.771 / Alt angle at start (deg) HIERARCH ESO TEL AZ = 354.862 / Az angle at start (deg) S=0,W=90 HIERARCH ESO TEL GEOELEV = 2400. / Elevation above sea level (m) HIERARCH ESO TEL GEOLAT = -29.2584 / Tel geo latitute (+=North) (deg) HIERARCH ESO TEL GEOLON = -70.7345 / Tel geo longitute (+=East) (deg) HIERARCH ESO TEL OPER = 'I, Condor' / Telescope Operator HIERARCH ESO TEL FOCU ID = 'CA ' / Telescope focus station ID HIERARCH ESO TEL FOCU LEN = 108.827 / Focal length (m) HIERARCH ESO TEL FOCU SCALE = 1.894 / Focal scale (arcsec/mm) HIERARCH ESO TEL FOCU VALUE = 0.000 / M2 setting (mm) PARANGST= -20.010 / Parallactic angle at start (deg) AIRMASS = 1.499ss at start FWHM-STA= 1.88 / Observatory Seeing queried from AS HIERARCH ESO TEL TRAK STATUS = 'NORMAL ' / Tracking status HIERARCH ESO TEL DOME STATUS = 'FULLY-OPEN' / Dome status PARANGEN= -17.048 / Parallactic angle at end (deg) HIERARCH ESO TEL AIRM END = 1.494 / Airmass at end FWHM-END= 1.61 / Observatory Seeing queried from AS HIERARCH ESO ADA ABSROT START= 269.90930 / Abs rot angle at exp start (deg) HIERARCH ESO ADA POSANG = 0.00000 / Position angle at start HIERARCH ESO ADA GUID STATUS = 'ON ' / Status of autoguider HIERARCH ESO ADA ABSROT END = 269.90930 / Abs rot angle at exp end (deg) INSTRUM = 'EFOSC/2.19' / Instrument ID GRISM-ID= '12 ' / GRIS1 unique ID GRISM = 'Gr#6 ' / GRIS1 name GRISM-NO= 12 / GRIS1 slot number FILT1-ID= '12 ' / FILT1 unique ID FILTER1 = 'Free ' / FILT1 name FILT1-NO= 12 / FILT1 slot number SLIT1-ID= '7 ' / SLIT1 unique ID SLIT1 = 'slit#2.0' / SLIT1 name SLIT1-NO= 7 / SLIT1 slot number OPTI1-ID= 'HWP ' / OPTI1 unique ID OPTI1 = 'hwp motor' / OPTI1 name OPTI1-ST= F / Status. OPTI2-ST= F / depolarizer on/off (T/F). OPTI2-PO= 0.000 / Position angle in [deg]. DET-ID = 'CCD FIERA - Rev 2.42' / Detector system Id DET-NAME= 'efosc - ccdefosc' / Name of detector system HIERARCH ESO DET DATE = '25-05-98' / Installation date HIERARCH ESO DET DID = 'ESO-VLT-DIC.CCDDCS,ESO-VLT-DIC.FCDDCS' / DictionDET-BITS= 16 / Bits per pixel readout DET-RA = 0.00000000 / Apparent 00:00:00.0 RA at start DET-DEC = 0.00000000 / Apparent 00:00:00.0 DEC at start SOFW MODE = 'Normal ' / CCD sw operational mode CHIPS-NO= 1 / # of chips in detector array CHIP1-ID= 'ccd40 ' / Detector chip identification CHIP1-NAME = 'LORAL ' / Detector chip name CHIP1-DATE = '25-05-98' / Date of installation [YYYY-MM-DD] CHIP1-X = 1 / X location in array CHIP1-Y = 1 / Y location in array CHIP1-NX= 2048 / # of pixels along X CHIP1-NY= 2048 / # of pixels along Y CHIP1-PSZX = 15.0 / Size of pixel in X CHIP1-PSZY = 15.0 / Size of pixel in Y HIERARCH ESO DET EXP NO = 1901 / Unique exposure ID number HIERARCH ESO DET EXP TYPE = 'Normal ' / Exposure type HIERARCH ESO DET EXP DUMDIT = 0 / # of dummy readouts HIERARCH ESO DET EXP RDTTIME = 22.095 / image readout time HIERARCH ESO DET EXP XFERTIM = 22.095 / image transfer time HIERARCH ESO DET READ MODE = 'normal ' / Readout method HIERARCH ESO DET READ SPEED = 'fast ' / Readout speed HIERARCH ESO DET READ CLOCK = 'read R port Fas' / Readout clock pattern used HIERARCH ESO DET OUTPUTS = 1 / # of outputs HIERARCH ESO DET OUTREF = 0 / reference output OUT-ID = 'R ' / Output ID as from manufacturer OUT-NAME= 'R ' / Description of output OUT-CHIP= 1 / Chip to which the output belongs OUT-X = 1 / X location of output OUT-Y = 1 / Y location of output OUT-NX = 1024 / valid pixels along X OUT-NY = 1024 / valid pixels along Y OUT-PRSCX = 6 / Prescan region in X OUT-OVSCX = 0 / Overscan region in X CONAD = 2.10 / Conversion from ADUs to electrons RON = 0.00 / Readout noise per output (e-) GAIN = 0.48 / Conversion from electrons to ADU FRAM-ID = 1 / Image sequencial number FRA-TYPE= 'Normal ' / Type of frame HIERARCH ESO DET WINDOWS = 1 / # of windows readout HIERARCH ESO DET WIN1 STRX = 1 / Lower left pixel in X HIERARCH ESO DET WIN1 STRY = 1 / Lower left pixel in Y HIERARCH ESO DET WIN1 NX = 1030 / # of pixels along X HIERARCH ESO DET WIN1 NY = 1030 / # of pixels along Y HIERARCH ESO DET WIN1 BINX = 2 / Binning factor along X HIERARCH ESO DET WIN1 BINY = 2 / Binning factor along Y HIERARCH ESO DET WIN1 NDIT = 1 / # of subintegrations HIERARCH ESO DET WIN1 UIT1 = 600.000 / user defined subintegration time HIERARCH ESO DET WIN1 DIT1 = 599.9966 / actual subintegration time HIERARCH ESO DET WIN1 DKTM = 600.0381 / Dark current time SHT-TYPE= 'Slit ' / type of shutter SHT-ID = 'ccd shutter' / Shutter unique identifier SHT-TMOP= 0.028 / Time taken to open shutter SHT-TMCL= 0.021 / Time taken to close shutter IMAGECTG= 'SCIENCE ' / Observation category IMAGETEC= 'SPECTRUM' / Observation technique HIERARCH ESO ADA GUID RA = 0.000000 / 00:00:00.0 Guide star RA J2000 HIERARCH ESO ADA GUID DEC = 0.00000 / 00:00:00.0 Guide star DEC J2000 HIERARCH ESO DET DATAMIN = 123 / Estimate for minimum pixel value HIERARCH ESO DET DATAMAX = 9223 / Estimate for maximum pixel value HIERARCH ESO DET DATAMED = 258 / Estimate for median pixel value HIERARCH ESO DET DATAMEAN = 283.295 / Estimate for mean pixel value HIERARCH ESO DET DATARMS = 104.67 / Estimate for RMS pixel value HIERARCH ESO GEN AMBI TEMPMEAN = 7.75 / Mean site temp. during exposure HIERARCH ESO GEN AMBI TEMPRMS = 0.07 / RMS site temp. during exposure HIERARCH ESO GEN AMBI PRESMEAN = 772.97 / Mean site barom. pressure duringHIERARCH ESO GEN AMBI PRESRMS = 0.06 / RMS site barom. pressure during eHIERARCH ESO GEN AMBI RHUMMEAN = 25.90 / Mean rel hum during exposure HIERARCH ESO GEN AMBI RHUMRMS = 0.55 / RMS rel hum during exposure HIERARCH ESO GEN AMBI WIND SPDMEAN = 0.00 / Mean wind speed during exposHIERARCH ESO GEN AMBI WIND SPDRMS = 0.00 / RMS wind speed during exposurHIERARCH ESO GEN AMBI WIND DIRMEAN = 186.15 / Mean exposure wind dir (N=0 HIERARCH ESO GEN AMBI WIND DIRRMS = 80.23 / RMS exposure wind dir (N=0 E=HIERARCH ESO GEN AMBI FWHMMEAN = 3.40 / Mean seeing during exposure HIERARCH ESO GEN AMBI FWHMRMS = 0.23 / RMS seeing during exposure HIERARCH ESO GEN MOON PHASE = 0.97 / Moon phase as fraction of period HIERARCH ESO GEN MOON ALTITUDE = -10.03856 / Moon altitude HIERARCH ESO GEN MOON AZIMUTH = 187.41979 / Moon azimuth HIERARCH ESO GEN MOON DIST = 106.97730 / Moon distance to the target HISTORY CORRFITS = 'corrfitsTable-RAW.ht' / Ver. 2.00 1910007-07-30TIMAGETYP= 'object ' WCSDIM = 1 CD1_1 = 4.135 LTM1_1 = 1. WAT0_001= 'system=equispec' WAT1_001= 'wtype=linear label=Wavelength units=angstroms units_display=angstrom'ZEROCOR = 'Nov 29 13:00 Zero level correction image is 2000-07-29/bias_000729' CCDSEC = '[73:1006,1:1023]' CCDPROC = 'Nov 29 15:49 CCD processing done' TRIM = 'Nov 29 13:32 Trim data section is [73:1006,1:1023]' BIASSEC = '[1:934,1:1023]' FLATCOR = 'Nov 29 15:49 Flat field image is FFSpec_0007 with scale=0.9997833' CRMASK = 'crmask_pks0312_13b.pl' BANDID1 = 'spectrum: background none, weights variance, clean no' APNUM1 = '1 1 450.08 458.08' DC-FLAG = 0 DCLOG1 = 'REFSPEC1 = spec_HeAr_000729.0001' WAT1_002= 's ' EX-FLAG = 0 CA-FLAG = 0 BUNIT = 'erg/cm2/s/A' END "#N##@@*"3"MU##&#J#ɇ" #Iv#2!# !}#.##T~"/#Nfl#Y""2# "^#a#S#eQ#.*#"x#"#z.# "}]#7*#="?#u#c#b[#g"l"e#zF#s#ܿ7#l#w#L#o##D?9#.N####"##)#!J#.|#|-#T##ғ###ER#G>#&#M:#m #՗#-##R##P##"v#$#"y"c##A#R##A#T"zI##}#Z֖#+1#<#f`##c@#E" ]##?#W#Ɇ#qŭ##a`#g##E a##Ņ<#P]#H:)#J#]###{C#M8%#f##$$ '#r#ӷL##J\##I#c#lu###|##J#Vt2#]##sG##ne#d#Cv#QG##L<#E"#(%b#0#۷#%8#WJ#{>#zy#ژ#l#X#%#KE##&#Ou#N#DI#qF##o?`###*S#a#D#2A##-###a##&#\#$ ####!##qIL###f+#:#g#S#ɟ#######5!$j#k# $ $$3$;k$=^$*#R#M$$#Wi#n#x#-#݌#C#NY#W:##KX:#pk#ԅ-#Q"S#C#m##D#6#q#P"`#jU#`#$d#k#Ϫ #4#x#hg#i###f,#eR##+# ~#x#`#B#`#m#*##G/#:G# #5##F#s#g#e###]t#Զ##q#LYn#~###K##"##݃ #w#>$ #K#a#v#¿##Б#y#nt#I##F#D##ѽS#t##(f#b#g##F#Y#f#p#H#!#=#_#S##4#Qj#Z#om#~##:?#B##c#]#ti# 0#׹##M#(# |#qp#ץ#E#K##'M#L#jg##d###C### ###s~###U#k# ##L#r|###P##ʸ##}.##C#6#p^#&###ڐ#z###@A#jF####.##wb##ٮ#I#]##Sy#З#X#]#9c#g #N#>#J#t##yC##;#Oe# #k#~#z[ #x~#u1#B##;%#[#̶#!##E:m#bi#L#{I#&#F[##oZ##v #E9#W#&#h:#oT##8#\:#!#;##}H#Ց#D###u##*#o#Ɲ##q"#Q#0#G#Ŷ#}#k7#V#[##(#̉P#r#-#y#(#k#3`#?##q#5#B#k####L# #]#[,#G#<#i#UG#3#x##B#n#,|#x#=##6##O#X#8#/##H#=-#l#~#˄#=-## #4#E\#8a# #U#xy#R#ڧO#< ###f#(#ΣG#c##־I#+ #V#ٻ#.#+m#U#)#˳#2 ##>#q~#,#£+#vy#6#9###LU#X##g#ұ#I##:#2#Q#r#4P#˫#9 #&#L###<#4#}##^#}##<#sS#VU# \#I##*#u#O##F.C#8#j##+##+##=W#.##-#S W#A##~9##r# #o##f##g~##U#r}#Y#j#̜##t#!#vr##K#^#y#QY#Ҵ#e#q!#BW##}#\#s#]z####C#,#˙#C<#^#g6##!c###D##=u##K#Y#z#@#*#v##; #%###ֹ}#x ##l#ɲ5#1#x#q# #j####d#oC#d##h#t3##+##[%##1#0#[?#ə##݌#=#v# #E##z#U##[#.#=#ދ#r,#c## #n<##l#0###Ѥ#ȿz#a##I# C####B#c7#@#u#T##~#k#ٽ#)1#${#Ԕ$#e$:$ 8x#$Mi$ $q$$ e#t#b/#ب###`#1 #ˈ#v.#۶J#w#Qj#c#3##N##ȯh##.#*a#Ū#H##=# ##I##0#B#,#^#m#5c#'###@#2_#v#`##Ү#y#t###'j##oCt#Lj#4 #]#h#m)#yU#A#G#Z#bz>#r##-###"#& #v##-#ƍ#(#T#~##S#I###7#~#g#V#{C#u0##;#D#t# #J#L#*#\]#,|#ǐ#0##TB#]#R1# ##B#X##STS#́W#*O#?#m# t#CM#f#SC##/"_#{#t#m?#v/##6g"=#3##a-#&"o#y###'###"i#`##>,#XY#8##7G#^ # 4#m#t;#4@I#jI]#cA#t#Du"|]"O#;#t6#y#P##T#3",##q#k"ܘl#->#C,b#T&#ܬ"{# ^#t Z#}E#~#W#k#_#cY#5ɩ#X##JM#p8""q"="m#X#h9#6o"#>"l"="w""?V>!oW