SIMPLE = T / Written by IDL: Tue Sep 13 14:57:18 2022 BITPIX = 8 / NAXIS = 0 / EXTEND = T / File contains extensions DATE = '2022-09-13' / ORIGIN = 'max ' / Usually the CPU used to generate the file OBSERVER= 'jimm ' / Usually the name of the user who generated the TELESCOP= 'HESSI ' / The High Energy Solar Spectroscopic Imager OBJECT = 'Sun ' / DATE_OBS= '2017-02-04T05:58:40.000' / DATE_END= '2017-02-28T06:32:56.000' / END XTENSION= 'BINTABLE' / Written by IDL: Tue Sep 13 14:57:18 2022 BITPIX = 8 / NAXIS = 2 / Binary table NAXIS1 = 86 / Number of bytes per row NAXIS2 = 1 / Number of rows PCOUNT = 0 / Random parameter count GCOUNT = 1 / Group count TFIELDS = 4 / Number of columns EXTNAME = 'HESSI FLARE LIST ID TABLE' / Extension name DATA_DSC= 'RHESSI Flare List, ' / Data Description TFORM1 = '1I ' / Integer*2 (short integer) TTYPE1 = 'Version Number' / Label for column 1 TFORM2 = '80A ' / Character string TTYPE2 = 'ID STRING' / Label for column 2 TFORM3 = '1I ' / Integer*2 (short integer) TTYPE3 = 'Info Version Number' / Label for column 3 TFORM4 = '1I ' / Integer*2 (short integer) TTYPE4 = 'Data Version Number' / Label for column 4 END HSI_FLARE_LIST: 2017-02-04T05:58:40.000 TO 2017-02-28T06:32:56.000 XTENSION= 'BINTABLE' / Written by IDL: Tue Sep 13 14:57:18 2022 BITPIX = 8 / NAXIS = 2 / Binary table NAXIS1 = 2730 / Number of bytes per row NAXIS2 = 1 / Number of rows PCOUNT = 0 / Random parameter count GCOUNT = 1 / Group count TFIELDS = 7 / Number of columns EXTNAME = 'HSI_FLARELISTINFO' / Extension name TFORM1 = '1J ' / Integer*4 (long integer) TTYPE1 = 'N_FLARES' / number of flares TFORM2 = '80A ' / Character string TTYPE2 = 'LIST_START_TIME' / start time, sec from 1979-01-01 TFORM3 = '80A ' / Character string TTYPE3 = 'LIST_END_TIME' / end time, sec from 1979-01-01 TFORM4 = '1I ' / Integer*2 (short integer) TTYPE4 = 'NFLAGS ' / number of flare flags TFORM5 = '2560A ' / Character string TTYPE5 = 'FLAG_IDS' / string identifiers for each flare flag TDIM5 = '(80,32) ' / Array dimensions for column 5 TFORM6 = '1I ' / Integer*2 (short integer) TTYPE6 = 'SIMULATED_DATA' / simulated data will be set to 1 TFORM7 = '1I ' / Integer*2 (short integer) TTYPE7 = 'CONCAT_FLAG' / Concatenated flare lists, set to 1 if concatenaEND M2017-02-04T05:58:40.000 2017-02-28T06:32:56.000 SAA_AT_START SAA_AT_END SAA_DURING_FLARE ECLIPSE_AT_START ECLIPSE_AT_END ECLIPSE_DURING_FLARE NON_SOLAR FRONT_DECIMATION ATT_STATE_AT_PEAK DATA_GAP_AT_START DATA_GAP_AT_END DATA_GAP_DURING_FLARE PARTICLE_EVENT DATA_QUALITY POSITION_QUALITY ATTEN_0 ATTEN_1 ATTEN_2 ATTEN_3 REAR_DECIMATION MAGNETIC_REGION IMAGE_STATUS SPECTRUM_STATUS SOLAR_UNCONFIRMED SOLAR NEAR_SPIN_AXIS NOMATCH_WITH_FSIMG USED_AIA_POSITION ASPECT_GAP XTENSION= 'BINTABLE' / Written by IDL: Tue Sep 13 14:57:18 2022 BITPIX = 8 / NAXIS = 2 / Binary table NAXIS1 = 485 / Number of bytes per row NAXIS2 = 77 / Number of rows PCOUNT = 0 / Random parameter count GCOUNT = 1 / Group count TFIELDS = 32 / Number of columns EXTNAME = 'HSI_FLARELISTDATA' / Extension name TFORM1 = '1J ' / Integer*4 (long integer) TTYPE1 = 'ID_NUMBER' / An ID number, ymmddnnn TFORM2 = '1D ' / Real*8 (double precision) TTYPE2 = 'START_TIME' / flare start time, sec from 1979-01-01 TFORM3 = '1D ' / Real*8 (double precision) TTYPE3 = 'END_TIME' / flare end time, sec from 1979-01-01 TFORM4 = '1D ' / Real*8 (double precision) TTYPE4 = 'PEAK_TIME' / flare peak time, sec from 1979-01-01 TFORM5 = '2D ' / Real*8 (double precision) TTYPE5 = 'BCK_TIME' / background accum. time, sec from 1979-01-01 TFORM6 = '2D ' / Real*8 (double precision) TTYPE6 = 'IMAGE_TIME' / time range for position & qlook images TFORM7 = '2E ' / Real*4 (floating point) TTYPE7 = 'ENERGY_RANGE_FOUND' / energy range used TFORM8 = '2E ' / Real*4 (floating point) TTYPE8 = 'ENERGY_HI' / hi energy at which flare is observed TFORM9 = '1E ' / Real*4 (floating point) TTYPE9 = 'PEAK_COUNTRATE' / peak front counts/det/sec, 'corrected' TFORM10 = '1E ' / Real*4 (floating point) TTYPE10 = 'BCK_COUNTRATE' / background counts/det/sec, 'corrected' TFORM11 = '1E ' / Real*4 (floating point) TTYPE11 = 'TOTAL_COUNTS' / total # of counts TFORM12 = '1E ' / Real*4 (floating point) TTYPE12 = 'PEAK_CORRECTION' / divide by this to get observed counts TFORM13 = '1E ' / Real*4 (floating point) TTYPE13 = 'TOTAL_CORRECTION' / divide by this to get observed counts TFORM14 = '2E ' / Real*4 (floating point) TTYPE14 = 'POSITION' / flare position in arcsec from sun center TFORM15 = '2E ' / Real*4 (floating point) TTYPE15 = 'SPIN_AXIS' / average pointing in arcsec from sun center TFORM16 = '2E ' / Real*4 (floating point) TTYPE16 = 'FSPOS ' / position from multidetector image TFORM17 = '80A ' / Character string TTYPE17 = 'FILENAME' / file(s) which have the data for this flare TFORM18 = '32B ' / Integer*1 (byte) TTYPE18 = 'FLAGS ' / flare flags TFORM19 = '18B ' / Integer*1 (byte) TTYPE19 = 'SEG_INDEX_MASK' / detector index mask TFORM20 = '9E ' / Real*4 (floating point) TTYPE20 = 'EXTRA_BCK' / peak, bck, sigma for rate, mod_var and front2toTDIM20 = '(3,3) ' / Array dimensions for column 20 TFORM21 = '1B ' / Integer*1 (byte) TTYPE21 = 'SFLAG1 ' / 0 for non-solar, 1 for both, 2 for possible solTFORM22 = '1I ' / Integer*2 (short integer) TTYPE22 = 'ACTIVE_REGION' / Active region number, if available TFORM23 = '80A ' / Character string TTYPE23 = 'GOES_CLASS' / GOES class of nearest flare, if available TFORM24 = '1E ' / Real*4 (floating point) TTYPE24 = 'RADIAL_OFFSET' / offset of position from spin_axis, degrees TFORM25 = '1E ' / Real*4 (floating point) TTYPE25 = 'PEAK_PHFLUX' / peak photon flux > 6 keV, ph/sec/cm^2 TFORM26 = '1E ' / Real*4 (floating point) TTYPE26 = 'TOT_PHFLUENCE' / total photon fluence > 6 keV, ph/cm^2 TFORM27 = '1E ' / Real*4 (floating point) TTYPE27 = 'E_PHFLUENCE' / e-folding photon fluence > 6 keV, ph/cm^2 TFORM28 = '1E ' / Real*4 (floating point) TTYPE28 = 'PEAK_PHFLUX_SIGMA' / uncertainty in peak photon flux TFORM29 = '1E ' / Real*4 (floating point) TTYPE29 = 'TOT_PHFLUENCE_SIGMA' / uncertainty in total photon fluence TFORM30 = '1E ' / Real*4 (floating point) TTYPE30 = 'E_PHFLUENCE_SIGMA' / uncertainty in e-folding photon fluence TFORM31 = '2E ' / Real*4 (floating point) TTYPE31 = 'GOES_LEVEL_PK' / GOES flux(W/m^2) level at flare peak TFORM32 = '80A ' / Character string TTYPE32 = 'ALT_ID ' / a string replacement for Ids, yyyymmdd_hhmmss END 雕A验 A验 A验 A验 A验 A验 A验 @ A@ @ A@ B8 A弆0F ? ? 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