SIMPLE = T / Java FITS: Fri Mar 10 12:36:42 CET 2017 BITPIX = 32 / bits per data value NAXIS = 0 / number of axes EXTEND = T / May contain datasets TIMESYS = 'UTC ' / All dates are in UTC time LONGSTRN= 'OGIP 1.0' / The OGIP long string convention may be used. COMMENT This FITS file may contain long string keyword values that are COMMENT continued over multiple keywords. This convention uses the '&' COMMENT character at the end of a string which is then continued COMMENT on subsequent keywords whose name = 'CONTINUE'. ---------------Herschel FITS Data Generator--------------- This product is generated by Herschel software. HCSS____= 5 / HCSS Fits Product Version -------------- Herschel Structure Data-------------------- Following fields are private to the structure of the Java object this HDU is representing. CLASS___= 'herschel.spire.ia.dataset.SpectrometerPointSourceSpectrum&' COMMENT java representation INFO____= 'Spectrometer Point Source Spectrum' -------------- Herschel Parameter Data-------------------- All actual parameter names are converted to FITS compliant conventions. Note that the HIERARCH comments contain the appropriate key mapping / SUMMARY INFORMATION ORIGIN = 'Herschel Science Centre' / Site that created the product CREATOR = 'SPG v14.1.0' / Generator of this product DATE = '2016-04-22T16:56:49.602000' / Creation date of this product TELESCOP= 'Herschel Space Observatory' / Name of telescope INSTRUME= 'SPIRE ' / Instrument attached to this product OBS_ID = 1342214825 / [] Observation identifier OBS_MODE= 'Single Pointing' / Observation mode name FILENAME= 'hspirespectrometer1342214825_a1060001_spg_HR_20spss' DESC = 'Spectrometer Point Source Spectrum' / Name of this product TYPE = 'SPSS ' / Product Type Identification / PROPOSAL INFORMATION PROPOSAL= 'GT1_azavagno_1' / Proposal name OBSERVER= 'azavagno' / Observer name AOR = 'SSpec-RCW120-38' / AOR Label as entered in HSpot AOT = 'Spectrometer' / AOT Identifier CUSMODE = 'SpireSpectroPoint' / CUS observation mode / TIME AND EXPOSURE INFORMATION DATE-OBS= '2011-02-26T17:51:42.855241' / Start date of this product DATE_OBS= '2011-02-26T17:51:42.855241' / Start date of this product DATE-END= '2011-02-26T18:00:45.598621' / End date of this product ODNUMBER= 654 / [] Operational day number ONSRCTIM= 530.0375213623047 / [s] Total on-source integration time SLEWTIME= '2011-02-26T17:49:57.000000' / Scheduled start time of the slew / ASSOCIATED OBSERVATION INFORMATION POBS_000= 1342204101 / [] SPIRE photometer map obsid that overlaps & COMMENT with this observation - 000 POBS_001= 1342204100 / [] SPIRE photometer map obsid that overlaps & COMMENT with this observation - 001 POBS_002= 1342183678 / [] SPIRE photometer map obsid that overlaps & COMMENT with this observation - 002 / TARGET AND POINTING INFORMATION OBJECT = 'RCW120-38' / Target name RA = 258.04712140390063 / [deg] Actual Right Ascension of pointing DEC = -38.5331024610159 / [deg] Actual Declination of pointing EQUINOX = 2000.0 / [] Equinox of celestial coordinate system RADESYS = 'ICRS ' / Coordinate reference frame for the RA and DEC PMRA = 0.0 / [arcsec/year] Target's proper motion RA (arc& COMMENT sec/yr) as given by the observer PMDEC = 0.0 / [arcsec/year] Target's proper motion Dec (ar& COMMENT csec/yr) as given by the observer RA_NOM = 258.04679166666665 / [deg] Requested Right Ascension of pointing DEC_NOM = -38.53319444444444 / [deg] Requested Declination of pointing POSANGLE= 91.37422945375677 / [deg] Position Angle of pointing VFRAME = 35.77451541827591 / [km s-1] Spacecraft velocity along the l-of-& COMMENT s of the telescope wrt the LSR VELDEF = 'RADI-LSR' / The velocity definition and frame POINTMOD= 'Basic-fine' / Pointing mode / SCIENCE INSTRUMENT CONFIGURATION INSTMODE= 'SOF1 ' / Instrument Mode MAPSAMPL= 'sparse ' / Spatial sampling of map NUMSCANS= 1 / [] Number of Scans CMDRES = 'HR ' / Commanded Spectral Resolution NUMREP = 4 / [] Number of times to repeat the basic unit & COMMENT of the observation / SPECTRAL INFORMATION SPECSYS = 'LSRk ' / Standard of rest for spectral axis / CALIBRATION INFORMATION CALVERS = 'spire_cal_14_3' / Calibration version ECALVERS= 'spire_cal_14_3&' COMMENT Version of the calibration tree used in the engineering conversion M1TEMP = 89.12524331776811 / [K] Telescope temperature M1 (in K) M2TEMP = 84.96487874848815 / [K] Telescope temperature M2 (in K) / ENGINEERING PARAMETERS BIASFREQ= 160.0922131147541 / [Hz] Bias frequency BIASMODE= 'nominal ' / Bias mode BSMOFF = 1.72 / [arcsec] BSM offset position (0.0 or 1.7 arc& COMMENT sec), which is corrected for by the point-source calibration. This syst&COMMENT ematic offset is included in the raDecOffset value ELECSIDE= 'prime ' / Electronic side MISSIONC= 'MC_H66ASTR_P60ASTR_S61ASTR_RP' / Mission configuration MODELNAM= 'FLIGHT ' / Model name attached to this product SIGTABNM= 'voltage ' / Name of the signal table SLWBIASA= 0.031132395 / [V] SLW bias amplitude SLWBIASP= -0.18480026085660228 / [rad] SLW bias phase SSWBIASA= 0.03596871200000001 / [V] SSW bias amplitude SSWBIASP= -0.1108804183133494 / [rad] SSW bias phase / DATA PROCESSING INFORMATION FORMATV = '1.0 ' / Version of product format BBID = 2701524993 / [] Building Block Identifier BBTNAME = 'SpireBbFtsScan' / Building block type name SPCNLCOR= T / Non-linearity correction has been applied APODNAME= 'unapod ' / Name of Apodization function applied APODTYPE= 'None ' / Type of Apodization applied JIGG_ID = 0 / [] Jiggle ID LEVEL = '20 ' / The level of the product PCAPPL = T / Phase correction has been applied POINT_ID= 0 / [] Pointing number PROC_RES= 'HR ' / The resolution used to process the data PROCMODE= 'BULK_REPROCESSING&' COMMENT Processing mode selected to execute the pipeline RCRLCORR= F / RC roll correction applied RESPCTRL= '2014-02-13T08:00:00.000000&' CONTINUE '' / & COMMENT Control Stamp used to ensure synchronization of Flux Conversion and Tem&COMMENT perature Drift correction tasks SUBSYS = 'SPECTROMETER' / Instrument Subsystem TIMEDRFT= -0.39 / [ms/min] Time drift added to correct the shi& COMMENT ft between detectors and pointing timing TIMEOFST= 0.079 / [s] Time offset added to correct the shift b& COMMENT etween detectors and pointing timing / DATA STATISTICS AND DATA QUALITY FLAGS ADCERFLG= F / Flag for presence of ADC Latch errors INVOFFLG= F / If true, offsets are from a previous observa& COMMENT tion QCMSFRNG= 0 / [] Maximum number of missed optical encoder & COMMENT fringes PCWRAPSL= 0 / [] Maximum number of times that in-band phas& COMMENT e changes by +/-2pi in any of the SLW detectors PCWRAPSS= 0 / [] Maximum number of times that in-band phas& COMMENT e changes by +/-2pi in any of the SSW detectors RADECOFF= 0.9858484131516562 / [arcsec] The offset between the commanded po& COMMENT sition and the actual reconstructed pointing, which includes any system&COMMENT atic BSM offset (bsmOffset), but not the APE SCNEXTRM= 1.000408282828283 / [] Maximum ratio of mesured SMEC scan extrem& COMMENT a to commanded scan extrema QCSMCOLC= 0 / [] Number of housekeeping entries which indi& COMMENT cate that the SMEC is not in closed loop SMECTEMP= 0.07064481510365717 / [] Maximum ddifference between maximum and m& COMMENT inimum SMEC temperatures (in K) SSPDAVG = 0.9956438992635697 / [] Maximum ratio of the measured SMEC speed & COMMENT to the commanded SMEC speed SSPDSDEV= 17.634361213275547 / [] Maximum standard deviation of the SMEC sp& COMMENT eed (in micron/s) SUBKDRFT= 2.093911170958E-5 / [K] Drift measured by the SubK temperature p& COMMENT robe QCWGBLSL= 0 / [] Maximum number of detectors in SLW where & COMMENT the removed baseline is not a good approximation of the actual baseline&COMMENT ~in the interferogram QCWGBLSS= 0 / [] Maximum number of detectors in SSW where & COMMENT the removed baseline is not a good approximation of the actual baseline&COMMENT ~in the interferogram DM1TEMP = 0.0 / [K] Maximum temperature variation of the tel& COMMENT escope 1 temperature (in K) DM2TEMP = 0.0 / [K] Maximum temperature variation of the tel& COMMENT escope 2 temperature (in K) DS2TEMP = 0.031807539919476824 / [K] SCal2 maximum temperature variation (in & COMMENT K) DS4TEMP = 0.024628553937417585 / [K] SCal4 maximum temperature variation (in & COMMENT K) DSTEMP = 0.03845020740123406 / [K] SCal maximum temperature variation (in K) NBK3VSL = 0 / [] Number of samples measured by any detecto& COMMENT r in this array for which the voltage is less than the value of the K3 &COMMENT calibration parameter NBK3VSS = 0 / [] Number of samples measured by any detecto& COMMENT r in this array for which the voltage is less than the value of the K3 &COMMENT calibration parameter NCLPNCSL= 0 / [] Maximum number of detectors in SLW where & COMMENT at least one sample was flagged as clipped and could not be corrected NCLPNCSS= 0 / [] Maximum number of detectors in SSW where & COMMENT at least one sample was flagged as clipped and could not be corrected NL2GSL = 0 / [] Maximum number of cases where a data samp& COMMENT le from a SLW detector that was flagged as a glitch was not corrected NL2GSS = 0 / [] Maximum number of cases where a data samp& COMMENT le from a SSW detector that was flagged as a glitch was not corrected RATOBHSL= 0.003261794055281088 / [] Maximum ratio of the mean of the absolute& COMMENT ~flux between 1200 and 5996 GHz over the mean of the absolute flux with&COMMENT in the band edges. RATOBHSS= 0.003896605557545 / [] Maximum ratio of the mean of the absolute& COMMENT ~flux between 1799 and 5996 GHz over the mean of the absolute flux with&COMMENT in the band edges. RATOBLSL= 0.010434503009622951 / [] Maximum ratio of the mean of the absolute& COMMENT ~flux between 0.03 and 360 GHz over the mean of the absolute flux withi&COMMENT n the band edges. RATOBLSS= 0.008521924291396137 / [] Maximum ratio of the mean of the absolute& COMMENT ~flux between 0.03 and 900 GHz over the mean of the absolute flux withi&COMMENT n the band edges. RINVTIME= 0.0 / [] Fraction of invalid sample times QCROCRSL= 2.919534715811764E-4 / [] Ratio of number of samples that are out o& COMMENT f the calibrated voltage range over number of data samples in the detec&COMMENT tors of this array QCROCRSS= 5.129520389843549E-4 / [] Ratio of number of samples that are out o& COMMENT f the calibrated voltage range over number of data samples in the detec&COMMENT tors of this array QCR1GSL = 0.008491383940216974 / [] Maximum ratio of number of flagged sample& COMMENT s over number of data samples in the detectors of the SLW array QCR1GSS = 0.008321249367030336 / [] Maximum ratio of number of flagged sample& COMMENT s over number of data samples in the detectors of the SSW array QCR2GPSL= 0.0 / [] Maximum ratio of number of data samples w& COMMENT here there were not enough valid scans to perform statistical outlier d&COMMENT etection over the total number of data samples in the detectors of the &COMMENT SLW array QCR2GPSS= 0.0 / [] Maximum ratio of number of data samples w& COMMENT here there were not enough valid scans to perform statistical outlier d&COMMENT etection over the total number of data samples in the detectors of the &COMMENT SSW array QCR2GSL = 0.001048998038884 / [] Maximum ratio of number of flagged sample& COMMENT s over number of data samples in the detectors of the SLW array QCR2GSS = 8.754627252830393E-4 / [] Maximum ratio of number of flagged sample& COMMENT s over number of data samples in the detectors of the SSW array RATOORSL= 2.186622451366E-4 / [] Largest ratio of number of out-of-range s& COMMENT amples to total number of samples in SLW data RATOORSS= 2.388021959632E-4 / [] Largest ratio of number of out-of-range s& COMMENT amples to total number of samples in SSW data QCRSPHSL= 3.7473152148292406 / [] Maximum phase within the phase correction& COMMENT ~limits (in units of degree) for SLW QCRSPHSW= 0.8713507114755673 / [] Maximum phase within the phase correction& COMMENT ~limits (in units of degree) for SSW / MISCELLANEOUS INFORMATION MSKADC = 4 / [] Mask value for possible ADC latchup error MSKCOOL = 524288 / [] Mask value for sample falls outside BSM c& COMMENT hop soft limits MSKJOOL = 1048576 / [] Mask value for sample falls outside BSM J& COMMENT iggle soft limits MSKDEAD = 128 / [] Mask value for dead channel MSKGLTCH= 32 / [] Mask value for glitch detected MSKGLTC1= 2048 / [] Mask value for first level glitch detected MSKGNR1 = 4096 / [] Mask value for first level glitch detecte& COMMENT d and not removed MSKGLTC2= 8192 / [] Mask value for second level glitch detect& COMMENT ed MSKGNR2 = 16384 / [] Mask value for second level glitch detect& COMMENT ed and not removed MSKGNR = 64 / [] Mask value for glitch detected and not re& COMMENT moved MSKINVTM= 2 / [] Mask value for invalid sample time MSKJUMP = 2097152 / [] Mask value for signal jump in the thermis& COMMENT tor/dark timeline MSKMSTR = 1 / [] Mask value for master bit MSKDKCHN= 16777216 / [] Mask value for all available dark channel& COMMENT s in the array are affected by either saturation or signal jump MSKNORSP= 131072 / [] Mask value for voltage out of fitted rang& COMMENT e and/or below K3 MSKNOTHM= 4194304 / [] Mask value for all the available thermist& COMMENT ors are affected by either saturation or signal jump MSKNOISY= 256 / [] Mask value for noisy channel MSKNOMVL= 8388608 / [] Mask value for sample is not part of the & COMMENT nominal science scans of a scan map MSKNCTOS= 512 / [] Mask value for channel not chopped to sky MSKSNDIP= 67108864 / [] Mask value for sample belongs to serendip& COMMENT ity mode MSKSLOW = 32768 / [] Mask value for slow channel MSKTRUNC= 8 / [] Mask value for ADC conversion truncation MSKTSIG = 262144 / [] Mask value for thermistor/DP signal devia& COMMENT tions are larger than expected MSKTRNRD= 33554432 / [] Mask value for sample belongs to a turnar& COMMENT ound section of a scan map MSKUNCTR= 16 / [] Mask value for uncorrected ADC conversion& COMMENT ~truncation MSKUNREL= 128 / [] Mask value for unreliable telemetry param& COMMENT eter MSKBEL3K= 65536 / [] Mask value for voltage below K3 MSKVOOL = 1024 / [] Mask value for voltage out of fitted range SOURCE = 'SPECF ' / TM source packet name META_0 = 60.60564266808499 / [] META_1 = 15.682345808028481 / [] META_2 = -0.14367546840382647 / [] META_3 = 0.06772878194663078 / [] META_4 = 5.7346621234853E-5 / [] META_5 = 9.479258112546904E-5 / [] META_6 = 2.292474759406233E-7 / [] META_7 = 4.309252696753524E-8 / [] META_8 = 92.76116535149961 / [] META_9 = 29.238286068997734 / [] META_10 = -0.139953920900621 / [] META_11 = 0.07127905729275351 / [] META_12 = 1.777468815536266E-4 / [] META_13 = 5.729005027517673E-5 / [] META_14 = -3.88816988917984E-8 / [] META_15 = 1.518734911335533E-8 / [] HIERARCH key.TELESCOP='telescope' HIERARCH key.INSTRUME='instrument' HIERARCH key.SUBSYS='subsystem' HIERARCH key.SOURCE='source' HIERARCH key.CREATOR='creator' HIERARCH key.OBJECT='object' HIERARCH key.OBSERVER='observer' HIERARCH key.PROPOSAL='proposal' HIERARCH key.OBS_ID='obsid' HIERARCH key.ODNUMBER='odNumber' HIERARCH key.DATE='creationDate' HIERARCH key.DATE-OBS='startDate' HIERARCH key.DATE-END='endDate' HIERARCH key.AOT='aot' HIERARCH key.AOR='aorLabel' HIERARCH key.CUSMODE='cusMode' HIERARCH key.INSTMODE='instMode' HIERARCH key.OBS_MODE='obsMode' HIERARCH key.POINTMOD='pointingMode' HIERARCH key.MAPSAMPL='mapSampling' HIERARCH key.BIASMODE='biasMode' HIERARCH key.JIGG_ID='jiggId' HIERARCH key.POINT_ID='pointNum' HIERARCH key.NUMREP='numRepetitions' HIERARCH key.ONSRCTIM='onSourceTime' HIERARCH key.CMDRES='commandedResolution' HIERARCH key.BIASFREQ='biasFreq' HIERARCH key.ELECSIDE='elecSide' HIERARCH key.MODELNAM='modelName' HIERARCH key.FORMATV='formatVersion' HIERARCH key.MISSIONC='missionConfig' HIERARCH key.EQUINOX='equinox' HIERARCH key.RADESYS='raDeSys' HIERARCH key.RA='ra' HIERARCH key.RA_NOM='raNominal' HIERARCH key.DEC='dec' HIERARCH key.DEC_NOM='decNominal' HIERARCH key.POSANGLE='posAngle' HIERARCH key.PMRA='pmRA' HIERARCH key.PMDEC='pmDEC' HIERARCH key.RADECOFF='raDecOffset' HIERARCH key.BSMOFF='bsmOffset' HIERARCH key.VFRAME='radialVelocity' HIERARCH key.VELDEF='velocityDefinition' HIERARCH key.ORIGIN='origin' HIERARCH key.PROCMODE='processingMode' HIERARCH key.TYPE='type' HIERARCH key.DESC='description' HIERARCH key.ECALVERS='engConvCalVersion' HIERARCH key.CALVERS='calVersion' HIERARCH key.LEVEL='level' HIERARCH key.PROC_RES='processResolution' HIERARCH key.NUMSCANS='numScans' HIERARCH key.BBID='bbid' HIERARCH key.BBTNAME='bbTypeName' HIERARCH key.SPECSYS='freqFrame' HIERARCH key.APODTYPE='apodType' HIERARCH key.APODNAME='apodName' HIERARCH key.M1TEMP='telescopeTempM1' HIERARCH key.M2TEMP='telescopeTempM2' HIERARCH key.PCAPPL='phaseCorrApplied' HIERARCH key.SIGTABNM='signalTable' HIERARCH key.MSKDEAD='maskDead' HIERARCH key.MSKMSTR='maskMaster' HIERARCH key.MSKNOISY='maskNoisy' HIERARCH key.MSKSLOW='maskSlow' HIERARCH key.ADCERFLG='adcErrFlag' HIERARCH key.RATOORSS='ratioTruncatedSSW' HIERARCH key.RATOORSL='ratioTruncatedSLW' HIERARCH key.MSKADC='maskAdcLatch' HIERARCH key.MSKTRUNC='maskTruncated' HIERARCH key.MSKUNCTR='maskUncorrectedTruncation' HIERARCH key.RINVTIME='ratioInvalidTimes' HIERARCH key.MSKINVTM='maskInvalidTime' HIERARCH key.TIMEOFST='timeOffset' HIERARCH key.TIMEDRFT='timeDrift' HIERARCH key.INVOFFLG='invalidOffsetFlag' HIERARCH key.SLWBIASA='slwBiasAmpl' HIERARCH key.SSWBIASA='sswBiasAmpl' HIERARCH key.SLWBIASP='slwBiasPhase' HIERARCH key.SSWBIASP='sswBiasPhase' HIERARCH key.RCRLCORR='rcRollApp' HIERARCH key.SUBKDRFT='subkTempDrift' HIERARCH key.MSKGLTC1='maskGlitchL1Detected' HIERARCH key.MSKGNR1='maskGlitchL1NotRemoved' HIERARCH key.QCR1GSL='ratioSpecFirstLevelGlitchesSLW' HIERARCH key.QCR1GSS='ratioSpecFirstLevelGlitchesSSW' HIERARCH key.QCROCRSS='ratioSamplesOutOfCalibrationRangeSSW' HIERARCH key.NBK3VSS='numberBelowK3VoltageSSW' HIERARCH key.QCROCRSL='ratioSamplesOutOfCalibrationRangeSLW' HIERARCH key.NBK3VSL='numberBelowK3VoltageSLW' HIERARCH key.MSKVOOL='maskVoltageOol' HIERARCH key.MSKBEL3K='maskVoltageBelowK3' HIERARCH key.MSKNORSP='maskNoRespData' HIERARCH key.SPCNLCOR='SpecNonLinearityCorrectionDone' HIERARCH key.RESPCTRL='respControlStamp' HIERARCH key.NCLPNCSL='numberClippedDetectorsSLW' HIERARCH key.NCLPNCSS='numberClippedDetectorsSSW' HIERARCH key.SCNEXTRM='scanExtrema' HIERARCH key.SMECTEMP='smecTemperature' HIERARCH key.QCMSFRNG='missedFringes' HIERARCH key.SSPDAVG='stageSpeedAverage' HIERARCH key.SSPDSDEV='stageSpeedDeviation' HIERARCH key.QCSMCOLC='smecOpenLoopCount' HIERARCH key.QCWGBLSS='wrongBaselineSSW' HIERARCH key.QCWGBLSL='wrongBaselineSLW' HIERARCH key.MSKGLTCH='maskGlitchDetected' HIERARCH key.MSKGNR='maskGlitchNotRemoved' HIERARCH key.MSKUNREL='maskUnreliableParameter' HIERARCH key.MSKNCTOS='maskNotChoppedToSky' HIERARCH key.MSKGLTC2='maskGlitchL2Detected' HIERARCH key.MSKGNR2='maskGlitchL2NotRemoved' HIERARCH key.MSKTSIG='maskTsignalHdv' HIERARCH key.MSKCOOL='maskBsmChopOol' HIERARCH key.MSKJOOL='maskBsmJiggOol' HIERARCH key.MSKJUMP='maskJumpThermistorsDarksSignal' HIERARCH key.MSKNOTHM='maskNoThermistorAvailable' HIERARCH key.MSKNOMVL='maskNonNominalVelocity' HIERARCH key.MSKDKCHN='maskNoDarkChannelAvailable' HIERARCH key.MSKSNDIP='maskSerendipity' HIERARCH key.MSKTRNRD='maskTurnaround' HIERARCH key.QCR2GSS='ratioSpecSecondLevelGlitchesSSW' HIERARCH key.QCR2GSL='ratioSpecSecondLevelGlitchesSLW' HIERARCH key.QCR2GPSS='ratioSpecSecondLevelGlitchIdentificationProblemsSSW' HIERARCH key.QCR2GPSL='ratioSpecSecondLevelGlitchIdentificationProblemsSLW' HIERARCH key.NL2GSS='numberSecondLevelGlitchCorrectionProblemsSSW' HIERARCH key.NL2GSL='numberSecondLevelGlitchCorrectionProblemsSLW' HIERARCH key.PCWRAPSL='phaseWrapSLW' HIERARCH key.PCWRAPSS='phaseWrapSSW' HIERARCH key.QCRSPHSL='residualPhaseSLW' HIERARCH key.QCRSPHSW='residualPhaseSSW' HIERARCH key.RATOBHSL='outOfBandHighRatioSLW' HIERARCH key.RATOBHSS='outOfBandHighRatioSSW' HIERARCH key.RATOBLSL='outOfBandLowRatioSLW' HIERARCH key.RATOBLSS='outOfBandLowRatioSSW' HIERARCH key.DSTEMP='deltaSCalTemp' HIERARCH key.DS2TEMP='deltaSCal2Temp' HIERARCH key.DS4TEMP='deltaSCal4Temp' HIERARCH key.DM1TEMP='deltaM1Temp' HIERARCH key.DM2TEMP='deltaM2Temp' HIERARCH key.SLEWTIME='slewTime' HIERARCH key.FILENAME='fileName' HIERARCH key.POBS_000='photObsid000' HIERARCH key.POBS_001='photObsid001' HIERARCH key.POBS_002='photObsid002' HIERARCH key.META_0='SLWC3_p0' HIERARCH key.META_1='SLWC3_p0err' HIERARCH key.META_2='SLWC3_p1' HIERARCH key.META_3='SLWC3_p1err' HIERARCH key.META_4='SLWC3_p2' HIERARCH key.META_5='SLWC3_p2err' HIERARCH key.META_6='SLWC3_p3' HIERARCH key.META_7='SLWC3_p3err' HIERARCH key.META_8='SSWD4_p0' HIERARCH key.META_9='SSWD4_p0err' HIERARCH key.META_10='SSWD4_p1' HIERARCH key.META_11='SSWD4_p1err' HIERARCH key.META_12='SSWD4_p2' HIERARCH key.META_13='SSWD4_p2err' HIERARCH key.META_14='SSWD4_p3' HIERARCH key.META_15='SSWD4_p3err' -----------------Dataset Children------------------------- Below you will find all HDU locations that are children of this composite dataset. DSETS___= 2 / Number of datasets DS_0 = 1 / HDU of Child Dataset DS_1 = 4 / HDU of Child Dataset END XTENSION= 'IMAGE ' / marks beginning of new HDU BITPIX = 32 / bits per data value NAXIS = 0 / number of axes PCOUNT = 0 / Mandatory FITS keyword GCOUNT = 1 / Mandatory FITS keyword LONGSTRN= 'OGIP 1.0' / The OGIP long string convention may be used. COMMENT This FITS file may contain long string keyword values that are COMMENT continued over multiple keywords. This convention uses the '&' COMMENT character at the end of a string which is then continued COMMENT on subsequent keywords whose name = 'CONTINUE'. -------------- Herschel Structure Data-------------------- Following fields are private to the structure of the Java object this HDU is representing. EXTNAME = '0000 ' / name of this HDU CLASS___= 'herschel.spire.ia.dataset.SpireSpectrumCompositeDataset&' CONTINUE '' / & COMMENT java representation -------------- Herschel Parameter Data-------------------- All actual parameter names are converted to FITS compliant conventions. Note that the HIERARCH comments contain the appropriate key mapping / TIME AND EXPOSURE INFORMATION DSCNSTRT= '2011-02-26T17:51:41.970784' / Start date of the FTS scan DSCNEND = '2011-02-26T18:00:39.022969' / End date of the FTS scan / SCIENCE INSTRUMENT CONFIGURATION SCNDIR = 'all ' / Scan direction / DATA PROCESSING INFORMATION SCNNUM = 0 / [] Scan number / MISCELLANEOUS INFORMATION COUNT = 0 / [] Set number HIERARCH key.COUNT='count' HIERARCH key.SCNNUM='scanNumber' HIERARCH key.SCNDIR='scanDir' HIERARCH key.DSCNSTRT='scanStartDate' HIERARCH key.DSCNEND='scanEndDate' -----------------Dataset Children------------------------- Below you will find all HDU locations that are children of this composite dataset. DSETS___= 2 / Number of datasets DS_0 = 2 / HDU of Child Dataset DS_1 = 3 / HDU of Child Dataset END XTENSION= 'BINTABLE' / marks beginning of new HDU BITPIX = 8 / bits per data value NAXIS = 2 / number of axes NAXIS1 = 32 / size of the n'th axis NAXIS2 = 1905 / size of the n'th axis PCOUNT = 0 / Required value GCOUNT = 1 / Required value TFIELDS = 5 / Number of table fields LONGSTRN= 'OGIP 1.0' / The OGIP long string convention may be used. COMMENT This FITS file may contain long string keyword values that are COMMENT continued over multiple keywords. This convention uses the '&' COMMENT character at the end of a string which is then continued COMMENT on subsequent keywords whose name = 'CONTINUE'. -------------- Herschel Structure Data-------------------- Following fields are private to the structure of the Java object this HDU is representing. EXTNAME = 'SLWC3 ' / name of this HDU CLASS___= 'herschel.spire.ia.dataset.SpireSpectrum1d' / java representation -------------- Herschel Parameter Data-------------------- All actual parameter names are converted to FITS compliant conventions. Note that the HIERARCH comments contain the appropriate key mapping / TARGET AND POINTING INFORMATION RA = 258.0476074608569 / [deg] Actual Right Ascension of pointing for& COMMENT ~this channel DEC = -38.53262112490457 / [deg] Actual Declination of pointing for thi& COMMENT s channel / SPECTRAL INFORMATION WAVEDESC= 'Frequency' / Description of WaveColumn WAVEUNIT= 'GHz ' / Units of the WaveColumn / ENGINEERING PARAMETERS CHNLNAME= 'SLWC3 ' / Channel name / DATA PROCESSING INFORMATION ACTRES = 1.18448225 / [GHz] Unpadded Spectral Resolution / DATA STATISTICS AND DATA QUALITY FLAGS PCWRAP = 0 / [] Number of times that in-band phase change& COMMENT s by +/-2pi / MISCELLANEOUS INFORMATION META_0 = 0.0025 / [cm] OPD Step Size META_1 = 12.655 / [cm] Maximum Unpadded Optical Path Difference META_2 = -0.56 / [cm] Minimum Unpadded Optical Path Difference META_3 = 5063 / [] Number of unique samples in the FFT META_4 = 40000 / [] Total number of samples in the padded FFT& COMMENT ~(same as nFft if no padding) META_5 = 5995.84916 / [GHz] Spectral Nyquist Frequency (1/2(deltaO& COMMENT pd)) META_6 = 60.60564266808499 / [] Coefficient p0 of order 3 polynomial fitt& COMMENT ed to the continuum META_7 = -0.14367546840382647 / [] Coefficient p1 of order 3 polynomial fitt& COMMENT ed to the continuum META_8 = 5.7346621234853E-5 / [] Coefficient p2 of order 3 polynomial fitt& COMMENT ed to the continuum META_9 = 2.292474759406233E-7 / [] Coefficient p3 of order 3 polynomial fitt& COMMENT ed to the continuum META_10 = 0.8245905686721566 / [deg] The maximum in-band residual phase for& COMMENT ~a given interferogram/spectrum HIERARCH key.DEC='dec' HIERARCH key.RA='ra' HIERARCH key.CHNLNAME='channelName' HIERARCH key.META_10='qcResidualPhase' HIERARCH key.PCWRAP='qcPhaseWrap' HIERARCH key.WAVEUNIT='waveunit' HIERARCH key.WAVEDESC='wavedescription' HIERARCH key.ACTRES='actualResolution' HIERARCH key.META_1='maxOpd' HIERARCH key.META_2='minOpd' HIERARCH key.META_0='deltaOpd' HIERARCH key.META_5='nyquist' HIERARCH key.META_3='numFft' HIERARCH key.META_4='numFftFull' HIERARCH key.META_6='p0' HIERARCH key.META_7='p1' HIERARCH key.META_8='p2' HIERARCH key.META_9='p3' ---------------Herschel Column Information---------------- Below follow additional fields to re-create the table columns into herschel.ia.dataset.Column objects * TTYPExxx - Column name * TCOLUxxx - Java Column container * TCLASxxx - Java ArrayData container * TFORMxxx - FITS column type * TDIMxxx - FITS column dimensions * TUNITxxx - herschel.share.unit.Unit TFORM1 = '1D ' / column data format TFORM2 = '1D ' / column data format TFORM3 = '1D ' / column data format TFORM4 = '1J ' / column data format TFORM5 = '1J ' / column data format TTYPE1 = 'wave ' / Frequency TCOLU1 = 'herschel.ia.dataset.spectrum.WaveColumn' TCLAS1 = 'herschel.ia.numeric.Double1d' TUNIT1 = 'GHz ' / herschel.share.unit.Unit TTYPE2 = 'flux ' / Flux Density TCOLU2 = 'herschel.ia.dataset.Column' TCLAS2 = 'herschel.ia.numeric.Double1d' TUNIT2 = 'Jy ' / herschel.share.unit.Unit TTYPE3 = 'error ' / Uncertainty TCOLU3 = 'herschel.ia.dataset.Column' TCLAS3 = 'herschel.ia.numeric.Double1d' TUNIT3 = 'Jy ' / herschel.share.unit.Unit TTYPE4 = 'mask ' / Mask TCOLU4 = 'herschel.ia.dataset.Column' TCLAS4 = 'herschel.ia.numeric.Int1d' TUNIT4 = '1 ' / herschel.share.unit.Unit TTYPE5 = 'numScans' / Number Of Scans TCOLU5 = 'herschel.ia.dataset.Column' TUNIT5 = '1 ' / herschel.share.unit.Unit TCLAS5 = 'herschel.ia.numeric.Int1d' END @{P@