2dF spectrum: XTENSION= 'IMAGE ' / IMAGE extension BITPIX = -32 / number of bits per data pixel NAXIS = 2 / number of data axes NAXIS1 = 1024 / length of data axis 1 NAXIS2 = 3 / length of data axis 2 PCOUNT = 0 / required keyword; must = 0 GCOUNT = 1 / required keyword; must = 1 BSCALE = 1. / True_value = BSCALE * FITS_value + BZERO BZERO = 0. / True_value = BSCALE * FITS_value + BZERO DATE = '2004-08-24T22:23:05' / file creation date (YYYY-MM-DDThh:mm:ss UT) EXTNAME = 'SPECTRUM' / Name of image extension EXTVER = 1 / Extension identifier ORIGIN = 'MGCz ' / Source of the data OBJECT = 'MGC20017' / Object name OBSERVAT= 'SSO ' / Name of observatory LATITUDE= -31.27704 / Telescope latitude in deg LONGITUD= 149.0661 / Telescope longitude in deg HEIGHT = 1164. / Telescope height above sea level in m TELESCOP= 'AAT ' / 3.9m Anglo-Australian Telescope INSTRUME= '2dF ' / 2 Degree Field multi-fibre spectrograph SPECTID = 'A ' / 2dF spectrograph ID GRATID = '300B ' / 2dF grating ID PLATE = 0 / 2dF plate number RDNOISE = 4.93 / Readout noise in e- GAIN = 2.83 / Readout gain in e-/ADU DATE-OBS= '2004-02-27' / UT date of start of observation UT = '13:25:28' / UT of start of observation MJD = 53062.559353934 / Modified Julian Date of observation LST = '09:48:39' / Local sidereal time at start of observation HA = -24.83339 / HA at start of observation in deg ALT = 50.88584 / Altitude at start of observation in deg EXPTIME = 1500. / Exposure time in s NCOMBINE= 3 / Number of exposures combined CTYPE1 = 'Wavelength' / Type of coordinate on axis 1 CUNIT1 = 'Angstrom' / Units for axis 1 CRPIX1 = 512. / WCS reference point CRVAL1 = 5802.908 / WCS reference value CD1_1 = 4.310303 / WCS transformation matrix element CD1_2 = 0. / WCS transformation matrix element CD2_1 = 0. / WCS transformation matrix element CD2_2 = 1. / WCS transformation matrix element ROW1 = 'Spectrum' / Identifier ROW2 = 'Sigma ' / Identifier ROW3 = 'Sky ' / Identifier FIBRE = 109 / Fibre number PIVOT = 193 / Pivot number RA_FIB = 171.07117 / Fibre right ascension in deg (J2000) DEC_FIB = -0.10575 / Fibre declination in deg (J2000) X = -24532 / Fibre button x position on plate Y = -206950 / Fibre button y position on plate THETA = 168.87 / Fibre angle in deg THPUT = 1.1365 / Fibre throughput Z = 0.13152 / Measured redshift Z_HELIO = 0.13155 / Heliocentric redshift Z_QUAL = 3 / Redshift quality BEST_Z = T / Best redshift flag SN = 5.44 / Median S/N per pixel in 4000-6000 A band ABEMMA = 3 / 0-3 = abs+em, abs, em or manual redshift #------------------------------------------------------------------------------ Gemini spectrum: XTENSION= 'IMAGE ' / IMAGE extension BITPIX = -32 / number of bits per data pixel NAXIS = 1 / number of data axes NAXIS1 = 2097 / length of data axis 1 PCOUNT = 0 / required keyword; must = 0 GCOUNT = 1 / required keyword; must = 1 BSCALE = 1. / True_value = BSCALE * FITS_value + BZERO BZERO = 0. / True_value = BSCALE * FITS_value + BZERO DATE = '2004-08-24T20:54:22' / file creation date (YYYY-MM-DDThh:mm:ss UT) EXTNAME = 'SPECTRUM' / Name of image extension EXTVER = 1 / Extension identifier ORIGIN = 'MGCz ' / Source of the data OBJECT = 'MGC08105' / Object name OBSERVAT= 'Mauna Kea' / Name of observatory LATITUDE= 19.8238 / Telescope latitude in deg LONGITUD= -155.4691 / Telescope longitude in deg HEIGHT = 4213. / Telescope height above sea level in m TELESCOP= 'Gemini-N' / Gemini North Telescope INSTRUME= 'GMOS-N ' / Gemini Multi Object Spectrograph OBSMODE = 'LONGSLIT N+S' / GMOS-N mode GRATING = 'R150_G5306' / GMOS-N grating name RDNOISE = 8.08 / Readout noise in e- GAIN = 6. / Readout gain in e-/ADU DATE-OBS= '2004-02-20' / UT date of start of observation UT = '09:39:54.9' / UT of start of observation LST = '09:16:07.3' / Local sidereal time at start of observation HA = -18.37167 / Hour angle at start of observation in deg AZIMUTH = 136.0835 / Azimuth at start of observation in deg ALT = 62.99742 / Altitude at start of observation in deg AIRMASS = 1.113 / Effective mean airmass EXPTIME = 499.9843 / Exposure time in s CTYPE1 = 'Wavelength' / Type of coordinate on axis 1 CUNIT1 = 'Angstrom' / Units for axis 1 CRPIX1 = 1. / WCS reference point CRVAL1 = 4059.165 / WCS reference value CD1_1 = 3.552257 / WCS transformation matrix element ROW1 = 'Spectrum' / Identifier RA_SLIT = 157.34629 / Slit right ascension in deg (J2000) DEC_SLIT= -0.26947 / Slit declination in deg (J2000) W_SLIT = 1. / Slit width in arcsec L_SLIT = 108. / Slit length in arcsec PA_SLIT = 109. / Slit position angle in deg Z = 0.02491 / Measured redshift Z_HELIO = 0.02493 / Heliocentric redshift Z_QUAL = 3 / Redshift quality BEST_Z = T / Best redshift flag SN = 0. / Median S/N per pixel in 4000-6000 A band ABEMMA = 3 / 0-3 = abs+em, abs, em or manual redshift #------------------------------------------------------------------------------ NTT spectrum: XTENSION= 'IMAGE ' / IMAGE extension BITPIX = -32 / number of bits per data pixel NAXIS = 2 / number of data axes NAXIS1 = 1816 / length of data axis 1 NAXIS2 = 3 / length of data axis 2 PCOUNT = 0 / required keyword; must = 0 GCOUNT = 1 / required keyword; must = 1 BSCALE = 1. / True_value = BSCALE * FITS_value + BZERO BZERO = 0. / True_value = BSCALE * FITS_value + BZERO DATE = '2004-08-25T04:45:26' / file creation date (YYYY-MM-DDThh:mm:ss UT) EXTNAME = 'SPECTRUM' / Name of image extension EXTVER = 1 / Extension identifier ORIGIN = 'MGCz ' / Source of the data OBJECT = 'MGC68316' / Object name OBSERVAT= 'La Silla' / Name of observatory LATITUDE= -29.2584 / Telescope latitude in deg LONGITUD= -70.7345 / Telescope longitude in deg HEIGHT = 2377. / Telescope height above sea level in m TELESCOP= 'NTT ' / ESO New Technology Telescope INSTRUME= 'EMMI ' / ESO Multi-Mode Instrument SPECTID = 'RILD ' / EMMI spectrograph mode GRISMID = 'Gr#3 ' / EMMI grism ID RDNOISE = 4.19 / Readout noise in e- GAIN = 1.32 / Readout gain in e-/ADU DATE-OBS= '2004-04-14' / UT date of start of observation UT = '08:43:54.0' / UT of start of observation MJD = 53109.36370633 / Modified Julian Date of observation LST = '17:32:24.0' / Local sidereal time at start of observation AZIMUTH = 118.708 / Azimuth at start of observation in deg ALT = 40.686 / Altitude at start of observation in deg AIRMASS = 1.641 / Effective mean airmass EXPTIME = 2700.002 / Exposure time in s CTYPE1 = 'Wavelength' / Type of coordinate on axis 1 CUNIT1 = 'Angstrom' / Units for axis 1 CRPIX1 = 1. / WCS reference point CRVAL1 = 3863.682 / WCS reference value CD1_1 = 2.840445 / WCS transformation matrix element CD1_2 = 0. / WCS transformation matrix element CD2_1 = 0. / WCS transformation matrix element CD2_2 = 1. / WCS transformation matrix element BUNIT = 'erg/cm2/s/A' / Units for data ROW1 = 'Spectrum' / Identifier ROW2 = 'Sigma ' / Identifier ROW3 = 'Sky ' / Identifier RA_SLIT = 221.34366 / Slit right ascension in deg (J2000) DEC_SLIT= -0.01912 / Slit declination in deg (J2000) W_SLIT = 1.5 / Slit width in arcsec L_SLIT = 480. / Slit length in arcsec PA_SLIT = 53.9 / Slit position angle in deg Z = 0.14351 / Measured redshift Z_HELIO = 0.14353 / Heliocentric redshift Z_QUAL = 4 / Redshift quality BEST_Z = T / Best redshift flag SN = 9.73 / Median S/N per pixel in 4000-6000 A band ABEMMA = 3 / 0-3 = abs+em, abs, em or manual redshift #------------------------------------------------------------------------------ TNG spectrum: XTENSION= 'IMAGE ' / IMAGE extension BITPIX = -32 / number of bits per data pixel NAXIS = 2 / number of data axes NAXIS1 = 1451 / length of data axis 1 NAXIS2 = 3 / length of data axis 2 PCOUNT = 0 / required keyword; must = 0 GCOUNT = 1 / required keyword; must = 1 BSCALE = 1. / True_value = BSCALE * FITS_value + BZERO BZERO = 0. / True_value = BSCALE * FITS_value + BZERO DATE = '2004-08-24T22:09:34' / file creation date (YYYY-MM-DDThh:mm:ss UT) EXTNAME = 'SPECTRUM' / Name of image extension EXTVER = 1 / Extension identifier ORIGIN = 'MGCz ' / Source of the data OBJECT = 'MGC18284' / Object name OBSERVAT= 'La Palma' / Name of observatory LATITUDE= 28.75786 / Telescope latitude in deg LONGITUD= -17.89386 / Telescope longitude in deg HEIGHT = 2387. / Telescope height above sea level in m TELESCOP= 'TNG ' / Telescopio Nazionale Galileo INSTRUME= 'LRS ' / Low Resolution Spectrograph GRISMID = 'LR-B Grm1' / LRS grism ID RDNOISE = 9. / Readout noise in e- GAIN = 1. / Readout gain in e-/ADU DATE-OBS= '2004-04-23' / UT date of start of observation UT = '22:03:28' / UT of start of observation LST = '11:01:01.2' / Local sidereal time at start of observation AZIMUTH = -7.74335 / Azimuth at start of observation in deg ALT = 60.92799 / Altitude at start of observation in deg AIRMASS = 1.144 / Effective mean airmass EXPTIME = 2700. / Exposure time in s CTYPE1 = 'Wavelength' / Type of coordinate on axis 1 CUNIT1 = 'Angstrom' / Units for axis 1 CRPIX1 = 1. / WCS reference point CRVAL1 = 3684.477 / WCS reference value CD1_1 = 3.001513 / WCS transformation matrix element CD1_2 = 0. / WCS transformation matrix element CD2_1 = 0. / WCS transformation matrix element CD2_2 = 1. / WCS transformation matrix element BUNIT = 'erg/cm2/s/A' / Units for data ROW1 = 'Spectrum' / Identifier ROW2 = 'Sigma ' / Identifier ROW3 = 'Sky ' / Identifier RA_SLIT = 168.95659 / Slit right ascension in deg (J2000) DEC_SLIT= -0.23382 / Slit declination in deg (J2000) W_SLIT = 1.5 / Slit width in arcsec L_SLIT = 564. / Slit length in arcsec PA_SLIT = 64.1 / Slit position angle in deg Z = 0.09854 / Measured redshift Z_HELIO = 0.09847 / Heliocentric redshift Z_QUAL = 4 / Redshift quality BEST_Z = T / Best redshift flag SN = 12.48 / Median S/N per pixel in 4000-6000 A band ABEMMA = 3 / 0-3 = abs+em, abs, em or manual redshift #------------------------------------------------------------------------------ ANU 2.3m spectrum: XTENSION= 'IMAGE ' / IMAGE extension BITPIX = -32 / number of bits per data pixel NAXIS = 2 / number of data axes NAXIS1 = 1750 / length of data axis 1 NAXIS2 = 3 / length of data axis 2 PCOUNT = 0 / required keyword; must = 0 GCOUNT = 1 / required keyword; must = 1 BSCALE = 1. / True_value = BSCALE * FITS_value + BZERO BZERO = 0. / True_value = BSCALE * FITS_value + BZERO DATE = '2004-08-24T21:57:50' / file creation date (YYYY-MM-DDThh:mm:ss UT) EXTNAME = 'SPECTRUM' / Name of image extension EXTVER = 1 / Extension identifier ORIGIN = 'MGCz ' / Source of the data OBJECT = 'MGC16446' / Object name OBSERVAT= 'SSO ' / Name of observatory LATITUDE= -31.27336 / Telescope latitude in deg LONGITUD= 149.0612 / Telescope longitude in deg HEIGHT = 1149. / Telescope height above sea level in m TELESCOP= '2.3m ' / ANU 2.3m Telescope INSTRUME= 'DBS ' / Double Beam Spectrograph SPECTID = 'Blue arm' / DBS spectrograph ID GRATID = '300B ' / DBS grating ID RDNOISE = 5.5 / Readout noise in e- GAIN = 1. / Readout gain in e-/ADU DATE-OBS= '2004-03-24' / UT date of start of observation UT = '10:39:03.8000' / UT of start of observation MJD = 53088.44374 / Modified Julian Date of observation LST = '08:44:11.8' / Local sidereal time at start of observation AIRMASS = 1.379 / Effective mean airmass EXPTIME = 2400. / Exposure time in s CTYPE1 = 'Wavelength' / Type of coordinate on axis 1 CUNIT1 = 'Angstrom' / Units for axis 1 CRPIX1 = 1. / WCS reference point CRVAL1 = 3681.194 / WCS reference value CD1_1 = 2.179823 / WCS transformation matrix element CD1_2 = 0. / WCS transformation matrix element CD2_1 = 0. / WCS transformation matrix element CD2_2 = 1. / WCS transformation matrix element BUNIT = 'erg/cm2/s/A' / Units for data ROW1 = 'Spectrum' / Identifier ROW2 = 'Sigma ' / Identifier ROW3 = 'Sky ' / Identifier RA_SLIT = 166.90707 / Slit right ascension in deg (J2000) DEC_SLIT= 0.06222 / Slit declination in deg (J2000) W_SLIT = 2. / Slit width in arcsec L_SLIT = 360. / Slit length in arcsec PA_SLIT = 30.1 / Slit position angle in deg Z = 0.17721 / Measured redshift Z_HELIO = 0.17718 / Heliocentric redshift Z_QUAL = 4 / Redshift quality BEST_Z = T / Best redshift flag SN = 6.18 / Median S/N per pixel in 4000-6000 A band ABEMMA = 3 / 0-3 = abs+em, abs, em or manual redshift