TELESCOP= 'JCMT ' / Name of Telescope
ORIGIN = 'Joint Astronomy Centre, Hilo'/ Origin of file
OBSGEO-X= -5464545.0 / [m]
OBSGEO-Y= -2492986.2 / [m]
OBSGEO-Z= 2150635.2 / [m]
ALT-OBS = 4111 / [m] Height of observatory above sea level
LAT-OBS = 19.825832 / [deg] Latitude of Observatory
LONG-OBS= 204.52028 / [deg] East longitude of observatory
ETAL = / Telescope efficiency
PROJECT = 'M06BEC119' / PATT number
RECIPE = 'REDUCE_FOCUS' / ORAC-DR recipe
DRGROUP = / Data Reduction group ID
MSBID = '1bdf99bba9bdf1d18086bd9e7a398bc4A'/ Id of minimum scheduable block
SURVEY = / Survey Name
RMTAGENT= / Name of Remote Agent
AGENTID = / Unique identifier for remote agent
OBJECT = 'Polaris ' / Object of interest
STANDARD= F / True if the spectral line is a standard
OBSNUM = 14 / obs number
NSUBSCAN= 1 / Sub-scan number
OBSEND = T / True if file is last in current observation
UTDATE = 20060810 / UT Date as integer in yyyymmdd format
DATE-OBS= '2006-08-10T02:37:16'/ UTC Datetime of start of observation
DATE-END= '2006-08-10T02:39:59'/ UTC Datetime of end of observation
OBSID = 'acsis_14_20060810T023716'/ Unique observation identifier
INSTAP = 'A ' / Receptor at tracking centre (if any)
INSTAP_X= 0.5 / [arcsec] Aperture X off. rel. to instr centre
INSTAP_Y= 1.0 / [arcsec] Aperture Y off. rel. to instr centre
AMSTART = 3.0487275 / Airmass at start of obervation
AMEND = 3.0491078 / Airmass at end of obervation
AZSTART = 359.73169 / [deg] Azimuth at obs. start - mount sys.
AZEND = 359.74023 / [deg] Azimuth at obs. end - mount sys.
ELSTART = 19.176004 / [deg] Elevation at obs. start - mount sys.
ELEND = 19.173527 / [deg] Elevation at obs. end - mount sys.
HSTSTART= '2006-08-09T16:37:16'/ HST at start of observation
HSTEND = '2006-08-09T16:39:59'/ HST at end of observation
LSTSTART= '13:29:08.1805' / LST at start of observation
LSTEND = '13:31:51.7873' / LST at end of observation
INT_TIME= 76.00493878126 / [s] Total time spent integrating, for entire ob
BACKEND = 'ACSIS ' / Name of the backend
MOLECULE= 'CO ' / Target molecular species
TRANSITI= '2 - 1 ' / Target transition for MOLECULE
TEMPSCAL= 'TA* ' / Temperature scale in use
DRRECIPE= 'focus_dr_recipe.ent'/ ACSIS-DR recipe name
BWMODE = '1GHzx2048' / ACSIS total bandwidth set up
SUBSYSNR= 1 / Sub-system number
SUBBANDS= '4 ' / ACSIS sub-band set up
NSUBBAND= 1 / Number of subbands
SUBREFP1= 1024 / Reference channel for subband1
SUBREFP2= / Reference channel for subband2
NCHNSUBS= 2048 / No. of channels in this sub-system
REFCHAN = 1024.0 / Reference IF channel No.
IFCHANSP= -488281.25 / [Hz] TOPO IF channel spacing (signed)
FFT_WIN = 'truncate' / Type of window used for FFT
BEDEGFAC= 1.23 / Backend degradation factor
MSROOT = 'test_focus_ppsw' / Root name of raw measurement sets
SPECID = 1 / Spectrum to which this subsystem belongs
INSTRUME= 'RxA3 ' / Front-end receiver
SB_MODE = 'DSB ' / Sideband mode
IFFREQ = 4.0 / [GHz] IF Frequency
N_MIX = 1 / No. of mixers
OBS_SB = 'USB ' / The observed sideband
LOFREQS = 226.55251 / [GHz] LO Frequency at start of obs.
LOFREQE = 226.55251 / [GHz] LO Frequency at end of obs.
RECPTORS= 'A ' / Active FE receptor IDs for this observation
REFRECEP= 'A ' / Receptor with unit sensitivity
MEDTSYS = 0.0 / [K] Median of the T_sys across all pixels
DOPPLER = / Doppler velocity definition
SSYSOBS = 'TOPOCENT' / Spectral ref. frame during observation
ATSTART = -1.7216864 / [degC] Air temp at start of observation
ATEND = -1.5917999 / [degC] Air temp at end of observation
HUMSTART= 97.971901 / Rel. Humidity at observation start
HUMEND = 100.13667 / Rel. Humidity at observation end
BPSTART = 72.594383 / [mbar] Pressure at observation start
BPEND = 73.027336 / [mbar] Pressure at observation end
WNDSPDST= 8.8343773 / [km/h] Wind Speed at obs start
WNDSPDEN= 9.2673311 / [km/h] Wind Speed at obs start
WNDDIRST= 331.59189 / [deg] Wind direction, azimuth at obs start
WNDDIREN= 333.75665 / [deg] Wind direction, azimuth at obs end
TAU225ST= 0.31143773 / Tau at 225 GHz from CSO at start
TAU225EN= 0.35473323 / Tau at 225 GHz from CSO at end
TAUDATST= '2003-05-01T17:34:07-1000'/ Time of TAU225ST observation
TAUDATEN= '2003-05-01T17:34:07-1000'/ Time of TAU225EN observation
TAUSRC = 'CSO225GHZ' / Source of the TAU225 value
WVMTAUST= 0.31143773 / 186GHz Tau from JCMT WVM at start
WVMTAUEN= 0.35473323 / 186GHz Tau from JCMT WVM at end
WVMDATST= '2003-05-01T17:34:07-1000'/ Time of WVMTAUST
WVMDATEN= '2003-05-01T17:34:07-1000'/ Time of WVMTAUEN
SEEINGST= 1.7058755 / [arcsec] SAO atmospheric seeing (start)
SEEINGEN= 1.7924666 / [arcsec] SAO atmospheric seeing (end)
SEEDATST= '2003-05-01T17:34:07-1000'/ Date/Time of SEEINGST
SEEDATEN= '2003-05-01T17:34:07-1000'/ Date/Time of SEEINGEN
FRLEGTST= 5.5813766 / [degC] Mean Front leg temperature - Start Obs
FRLEGTEN= 6.0143313 / [degC] Mean Front Leg temperature -End Obs
BKLEGTST= 4.9813771 / [degC] Mean back leg temperature -Start Obs
BKLEGTEN= 5.4143319 / [degC] Mean back leg temperature -End Obs
SAM_MODE= 'grid ' / Sampling Mode
SW_MODE = 'chop ' / Switch Mode
SKYREFX = '[OFFSET] 180 [J2000]'/ X co-ord of Reference Position
SKYREFY = '[OFFSET] 0 [J2000]' / Y co-ord of Reference Position
OBS_TYPE= 'focus ' / Type of observation
CHOP_CRD= 'AZEL ' / Chopping co-ordinate system
CHOP_FRQ= 0.48780489 / [Hz] Chop frequency
CHOP_PA = 90.0 / [deg] Chop PA; 0=in lat, 90=in long
CHOP_THR= 60.0 / [arcsec] Chop throw
JIGL_CNT= 0 / Number of offsets in jiggle pattern
JIGL_NAM= 'UNDEF ' / File containing the jiggle offsets
JIG_PA = 0.0 / [deg] Jiggling PA; 0=in lat, 90=in long
JIG_CRD = 'UNDEF ' / Jiggling co-ordinate system
MAP_HGHT= / [arcsec] Requested height of map
MAP_PA = / [deg] Requested PA of map
MAP_WDTH= / [arcsec] Requested width of map
LOCL_CRD= / Local offset co-ordinate system
MAP_X = / [arcsec] Requested map offset from tel centre
MAP_Y = / [arcsec] Requested map offset from tel centre
SCAN_CRD= / Co-ordinate system for scanning direction
SCAN_VEL= / [arcsea/sec] Scan velocity along scan axis
SCAN_DY = / [arcsec] Scan spacing perp. to scan axis
SCAN_PA = / [deg] Scan PA relative to SAM_CRDS
SCAN_PAT= / Scan pattern name
ALIGN_DX= 0.0 / SMU tables X axis focus offset
ALIGN_DY= 0.0 / SMU tables Y axis focus offset
FOCUS_DZ= 0.0 / SMU tables Z axis focus offset
DAZ = 0.0 / SMU azimuth pointing offset
DEL = -6.05 / SMU elevation pointing offset
UAZ = 0.0 / User azimuth pointing offset
UEL = 0.0 / User elevation pointing offset
STEPTIME= 1.0 / RTS step time during an RTS sequence
NUM_CYC = 1 / Number of times to repeat entire recipe
NUM_NODS= 1 / Number of times to repeat nod set
JOS_MULT= 2 / MULT from JOS used in total steps calculation
JOS_MIN = 0 / MIN from JOS used in total steps calculation
NCALSTEP= 5 / Number of RTS steps for each CAL (if any)
NREFSTEP= 0 / Number of RTS steps for each REF (if any)
STBETREF= 120 / Target number of RTS steps between refs
STBETCAL= 1800 / Target number of RTS steps between cals
STARTIDX= 0 / Index into pattern at start of obs
FOCAXIS = 'Y ' / Focus Axis to move (X, Y, Z)
NFOCSTEP= 5 / Number of focal position steps (odd number)
FOCSTEP = 1.0 / Distance between focus steps
OCSCFG = 'acsis_20060810_023604_746916.xml'/ OCS config filename
SIM_CORR= F / True if any CORRTASK is simulated
SIM_SMU = T / True if SMU data is simulated
SIM_TCS = T / True if TCS data is simulated
SIM_RTS = F / True if RTS data is simulated
SIM_IF = F / True if IF data is simulated
SIMULATE= T / True if any data are simulated
STATUS = 'NORMAL ' / Status of end of obervation
POL_CONN= F / True if ROVER is connected
POL_MODE= / Step-and-integrate (STEPINT) or Spin (SPIN)
ROTAFREQ= / [Hz] Spin frequency (if spinning)