SIMPLE = T / file does conform to FITS standard BITPIX = 32 / number of bits per data pixel NAXIS = 0 / number of data axes EXTEND = T / FITS dataset may contain extensions COMMENT FITS (Flexible Image Transport System) format defined in Astronomy andCOMMENT Astrophysics Supplement Series v44/p363, v44/p371, v73/p359, v73/p365.COMMENT Contact the NASA Science Office of Standards and Technology for the COMMENT FITS Definition document #100 and other FITS information. DATE = '28/09/97' / FITS file creation date (dd/mm/yy) ORIGIN = 'CDAC ' / Cosmology Data Analysis Center TELESCOP= 'COBE ' / COsmic Background Explorer satellite INSTRUME= 'FIRAS ' / COBE instrument [DIRBE, DMR, FIRAS] OBJECT = 'ALL-SKY ' / part of sky given [ALL-SKY, GAL-SLICE] PRODUCT = 'HLINE-PR' / High frequency line profiles EQUINOX = 2000.0 / equinox of coords in following tables COMMENT REFERENC= 'For additional information, please refer to the' / REFERENC= 'COBE Far Infrared Absolute Spectrophotometer (FIRAS)' / REFERENC= 'Explanatory Supplement, ed. J.C. Mather et al,' / REFERENC= 'COBE Ref. Pub. No. 97-C (Greenbelt, MD: NASA/GSFC),' / REFERENC= 'available in electronic form from the NSSDC.' / COMMENT COMMENT COBE specific keywords DATE-BEG= '24/11/89' / date of initial data represented (dd/mm/yy) DATE-END= '21/09/90' / date of final data represented (dd/mm/yy) PIXRESOL= 6 / Quad tree pixel resolution [6, 9] COMMENT COMMENT FIRAS specific keywords CHANSCAN= 'LHFA ' / Channel and mirror transport mechanism scan COMMENT / mode identifier. The first two characters COMMENT / indicate the channel, the first being the COMMENT / instrument side: right (R) or left (L); and COMMENT / the second being the frequency: high (H) or COMMENT / low (L). The third and fourth characters COMMENT / indicate the scan mode, the third being the COMMENT / scan length: short (S) or long (L); and the COMMENT / fourth being the scan speed: slow (S) or COMMENT / fast (F). In addition, the scan mode may COMMENT / take the following values for low frequency COMMENT / data only (channel = RL or LL): COMMENT / FS: decimated SF data; COMMENT / FL: truncated LF data. COMMENT / The scan mode value FA indicates: for high COMMENT / frequency data (channel = RH or LH), a COMMENT / combination of SF and LF data; and for low COMMENT / frequency data (channel = RL or LL), a COMMENT / combination of FS and FL data. MODLLABL= 'PASS4 ' / FIRAS calibration model solution label MISS_SEG= 'ENTIRE_MISSION' / FIRAS segment of mission represented NU_ZERO = 68.020812 / Optical frequency of initial data point in GHzDELTA_NU= 13.604162 / Optical frequency interval between data pointsCOMMENT / in GHz NUM_FREQ= 210 / Number of frequency points with good data END XTENSION= 'BINTABLE' / Extension type is Binary Table BITPIX = 8 / Binary data NAXIS = 2 / Data are in a table NAXIS1 = 15120 / Number of 8 bit bytes in each row NAXIS2 = 1 / Number of rows PCOUNT = 0 / Number of bytes of data following table GCOUNT = 1 / Group count (always 1 for bintable extensions) TFIELDS = 18 / Number of fields (columns) in the table COMMENT COMMENT COMMENT FIRAS High Frequency Line Profiles COMMENT Project Dataset Record Structure COMMENT COMMENT COMMENT 115.27 GHz CO (J=1-0) line profile, in cm*MJy/(nanowatts/m^2) TFORM1 = '210E ' / TDIM1 = '(210) ' / TTYPE1 = 'CO_115 ' / entire fieldname = CO_115 TUNIT1 = 'cm*MJy/(nanowatts/m^2)' / COMMENT 230.54 GHz CO (J=2-1) line profile, in cm*MJy/(nanowatts/m^2) TFORM2 = '210E ' / TDIM2 = '(210) ' / TTYPE2 = 'CO_230 ' / entire fieldname = CO_230 TUNIT2 = 'cm*MJy/(nanowatts/m^2)' / COMMENT 345.80 GHz CO (J=3-2) line profile, in cm*MJy/(nanowatts/m^2) TFORM3 = '210E ' / TDIM3 = '(210) ' / TTYPE3 = 'CO_345 ' / entire fieldname = CO_345 TUNIT3 = 'cm*MJy/(nanowatts/m^2)' / COMMENT 424.75 GHz O2 line profile, in cm*MJy/(nanowatts/m^2) TFORM4 = '210E ' / TDIM4 = '(210) ' / TTYPE4 = 'O2_424 ' / entire fieldname = O2_424 TUNIT4 = 'cm*MJy/(nanowatts/m^2)' / COMMENT 461.04 GHz CO (J=4-3) line profile, in cm*MJy/(nanowatts/m^2) TFORM5 = '210E ' / TDIM5 = '(210) ' / TTYPE5 = 'CO_461 ' / entire fieldname = CO_461 TUNIT5 = 'cm*MJy/(nanowatts/m^2)' / COMMENT 492.23 GHz [C I] line profile, in cm*MJy/(nanowatts/m^2) TFORM6 = '210E ' / TDIM6 = '(210) ' / TTYPE6 = 'C_I_492 ' / entire fieldname = C_I_492 TUNIT6 = 'cm*MJy/(nanowatts/m^2)' / COMMENT 556.89 GHz H2O line profile, in cm*MJy/(nanowatts/m^2) TFORM7 = '210E ' / TDIM7 = '(210) ' / TTYPE7 = 'H2O_556 ' / entire fieldname = H2O_556 TUNIT7 = 'cm*MJy/(nanowatts/m^2)' / COMMENT 576.27 GHz CO (J=5-4) line profile, in cm*MJy/(nanowatts/m^2) TFORM8 = '210E ' / TDIM8 = '(210) ' / TTYPE8 = 'CO_576 ' / entire fieldname = CO_576 TUNIT8 = 'cm*MJy/(nanowatts/m^2)' / COMMENT 691.47 GHz CO (J=6-5) line profile, in cm*MJy/(nanowatts/m^2) TFORM9 = '210E ' / TDIM9 = '(210) ' / TTYPE9 = 'CO_691 ' / entire fieldname = CO_691 TUNIT9 = 'cm*MJy/(nanowatts/m^2)' / COMMENT 809.44 GHz [C I] line profile, in cm*MJy/(nanowatts/m^2) TFORM10 = '210E ' / TDIM10 = '(210) ' / TTYPE10 = 'C_I_809 ' / entire fieldname = C_I_809 TUNIT10 = 'cm*MJy/(nanowatts/m^2)' / COMMENT 1113.3 GHz H2O line profile, in cm*MJy/(nanowatts/m^2) TFORM11 = '210E ' / TDIM11 = '(210) ' / TTYPE11 = 'H2O_1113' / entire fieldname = H2O_1113 TUNIT11 = 'cm*MJy/(nanowatts/m^2)' / COMMENT 1461.1 GHz [N II] line profile, in cm*MJy/(nanowatts/m^2) TFORM12 = '210E ' / TDIM12 = '(210) ' / TTYPE12 = 'N_II_146' / entire fieldname = N_II_1461 TUNIT12 = 'cm*MJy/(nanowatts/m^2)' / COMMENT 1716.6 GHz H2O (J=2-1) line profile, in cm*MJy/(nanowatts/m^2) TFORM13 = '210E ' / TDIM13 = '(210) ' / TTYPE13 = 'H2O_1716' / entire fieldname = H2O_1716 TUNIT13 = 'cm*MJy/(nanowatts/m^2)' / COMMENT 1900.5 GHz [C II] line profile, in cm*MJy/(nanowatts/m^2) TFORM14 = '210E ' / TDIM14 = '(210) ' / TTYPE14 = 'C_II_190' / entire fieldname = C_II_1900 TUNIT14 = 'cm*MJy/(nanowatts/m^2)' / COMMENT 2060.1 GHz [O I] line profile, in cm*MJy/(nanowatts/m^2) TFORM15 = '210E ' / TDIM15 = '(210) ' / TTYPE15 = 'O_I_2060' / entire fieldname = O_I_2060 TUNIT15 = 'cm*MJy/(nanowatts/m^2)' / COMMENT 2311.7 GHz [Si I] line profile, in cm*MJy/(nanowatts/m^2) TFORM16 = '210E ' / TDIM16 = '(210) ' / TTYPE16 = 'SI_I_231' / entire fieldname = SI_I_2311 TUNIT16 = 'cm*MJy/(nanowatts/m^2)' / COMMENT 2459.4 GHz [N II] line profile, in cm*MJy/(nanowatts/m^2) TFORM17 = '210E ' / TDIM17 = '(210) ' / TTYPE17 = 'N_II_245' / entire fieldname = N_II_2459 TUNIT17 = 'cm*MJy/(nanowatts/m^2)' / COMMENT 2589.6 GHz CH (J=2-1) line profile, in cm*MJy/(nanowatts/m^2) TFORM18 = '210E ' / TDIM18 = '(210) ' / TTYPE18 = 'CH_2589 ' / entire fieldname = CH_2589 TUNIT18 = 'cm*MJy/(nanowatts/m^2)' / COMMENT END ºà¥Ã=CE–¿3—Ù@ŠW@röK¿Ó=#oŽ½Eá =¢œþ8ÍkM½KÐ¾Œ1¿>ÏÍr>„?‚»s„ß½ºÿE»ô=q=*<"†¼Ëk9¼ÄI<‹¥û<ác½»Ëƒº½BØ.»Ðøó=À57=,xÜ½?î-¼Æ´[¸ÑÞþ¸•›08‡ç6·šá¸Œ‰8ˆ*9Èî¸©×Ì¹zR8±G9–vâ8º‰î¹ž>o¹6Ÿ9S9yô¸ÌA ¹Zñ|6í^9™8OÕ"¸¸ã=·“…Q6ç‹>·|áA·sq8»„8VK¹"’¸ú¨R8fŽ9G—¨· Ù!¹ã¸ØÌ?8µÁ9ú17à{¤¸êÍ+¹R8Z{9$'½8ÍÈS¹"»*¸â8<Ùï8ßl½·‚¡ä¸%n8ŽPU¸U¸;¹š¿¶ƒé“9©M«8œ8¹Âtu¹’šq9¹ÿ¼9ñ_‡¹M¢ºž57—qœ:–T8å¤‘¹ëd”¹`oK9¥<€8÷³Ÿ¹~¼¶8¾Qâ9›—5¹oAïº&‰¬9©H·:‚«Ï¸‘í-ºÃ³ÿ¹ßcü:ïY:—–ÃºÙdºýw‰:ž¥Û;>¹ãƒ»Â”8P]_:èõ¹\<ùº’ûâ:|¿º“¬gº¡¶`:Ÿî:ÿ6º »{º£ºÎ¥;šîÍ»£ë{< ~F½þf´?É@¹?5!Û¾.Ö`<ê¶è»ÓAè;ÿ¹“»MÑ»<›¯¹‹°ä;`fˆ:ãšn»‰Lå»€äc;•r¹½1¾Ž²ß½…i»ý-Ï=¶\n¼§ó¤;.£¿Xž@†#@ˆ}¿Výò=ñêð½Ç¤`>‹Â¡½©]Õ½ô6¾.æ=äœÂ=j×·¼mŒ‚½r,Î9_}O=8Ý‰<¢õØ½3Ã½V˜Î=1¼ï=}Z1»¥Ñ½¬»’@\9Â¬¶9“L-¸”š³¹âˆö¹¥ ô7®%:_oí9õ 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