netcdf sgpaeriengineerB6.b1.20031112.002530 { dimensions: time = UNLIMITED ; // (155 currently) variables: int base_time ; base_time:string = "12-Nov-2003,0:25:30 GMT" ; base_time:long_name = "Base time in Epoch" ; base_time:units = "seconds since 1970-1-1 0:00:00 0:00" ; double time_offset(time) ; time_offset:long_name = "Time offset from base_time" ; time_offset:units = "seconds since 2003-11-12 00:25:30 0:00" ; double time(time) ; time:long_name = "Time offset from midnight" ; time:units = "seconds since 2003-11-12 00:00:00 0:00" ; int qc_time(time) ; qc_time:long_name = "Results of quality checks on sample time" ; qc_time:units = "unitless" ; qc_time:description = "The qc_time values are calculated by comparing each sample\n", "time with the previous time (i.e. delta_t = t[n] - t[n-1]).\n", "If the \'qc_check_prior\' flag is set the first sample time\n", "from a new raw file will be compared against the time just\n", "previous to it in the stored data. If the \'qc_check_prior\'\n", "flag is not set the qc_time value for the first sample time\n", "will be set to 0\n", "\n", "The qc_time bit values are as follows:\n", "=========================================================\n", "0x0 = delta time is within the specified range\n", "0x1 = delta time is equal to 0, duplicate sample times\n", "0x2 = delta time is less than the \'delta_t_lower_limit\'\n", "0x4 = delta time is greater than the \'delta_t_upper_limit\'\n", "\n", "" ; qc_time:delta_t_lower_limit = 405 ; qc_time:delta_t_upper_limit = 525 ; qc_time:prior_sample_flag = 0 ; float Time_UTC_hours(time) ; Time_UTC_hours:long_name = "Time at center of AERI sky observation period" ; Time_UTC_hours:units = "hours since 2003-11-12 00:00:00 0:00 GMT" ; Time_UTC_hours:resolution = 0.0001f ; Time_UTC_hours:missing_value = -9999.f ; Time_UTC_hours:explanation_of_value = "Hour + Hour fraction for each day" ; float timeHHMMSS(time) ; timeHHMMSS:long_name = "Time at center of AERI sky observation period" ; timeHHMMSS:units = "HHMMSS" ; timeHHMMSS:resolution = 1.f ; timeHHMMSS:missing_value = -9999.f ; float dateYYMMDD(time) ; dateYYMMDD:long_name = "Observation date" ; dateYYMMDD:units = "YYMMDD" ; dateYYMMDD:resolution = 1.f ; dateYYMMDD:missing_value = -9999.f ; float JulianDay(time) ; JulianDay:long_name = "Julian Day including day and fraction of day" ; JulianDay:units = "days" ; JulianDay:resolution = 1.e-05f ; JulianDay:missing_value = -9999.f ; float AERIunitNumber(time) ; AERIunitNumber:long_name = "AERI instrument unit serial number" ; AERIunitNumber:units = "unitless" ; AERIunitNumber:resolution = 1.f ; AERIunitNumber:missing_value = -9999.f ; float instrumentUnitNumber(time) ; instrumentUnitNumber:long_name = "Character string containing instrument name" ; instrumentUnitNumber:units = "unitless" ; instrumentUnitNumber:resolution = 0.f ; instrumentUnitNumber:missing_value = -9999.f ; float Latitude(time) ; Latitude:long_name = "Observation latitude" ; Latitude:units = "deg" ; Latitude:resolution = 0.01f ; Latitude:missing_value = -9999.f ; float Longitude(time) ; Longitude:long_name = "Observation longitude" ; Longitude:units = "deg" ; Longitude:resolution = 0.01f ; Longitude:missing_value = -9999.f ; float Altitude(time) ; Altitude:long_name = "Observation Altitude" ; Altitude:units = "m" ; Altitude:resolution = 1.f ; Altitude:missing_value = -9999.f ; float systemReleaseNumber(time) ; systemReleaseNumber:long_name = "Version number of Operational Software" ; systemReleaseNumber:units = "unitless" ; systemReleaseNumber:resolution = 0.001f ; systemReleaseNumber:missing_value = -9999.f ; float sceneViewDuration(time) ; sceneViewDuration:long_name = "Duration of scene view" ; sceneViewDuration:units = "s" ; sceneViewDuration:resolution = 1.f ; sceneViewDuration:missing_value = -9999.f ; float coadditionsCount(time) ; coadditionsCount:long_name = "Coadditions count; Number of complete(forward+backward) interferogram scans in a sample average." ; coadditionsCount:units = "unitless" ; coadditionsCount:resolution = 1.f ; coadditionsCount:missing_value = -9999.f ; float sceneMirrorPosition(time) ; sceneMirrorPosition:long_name = "Instrument scene mirror position identifier" ; sceneMirrorPosition:units = "unitless" ; sceneMirrorPosition:resolution = 1.f ; sceneMirrorPosition:missing_value = -9999.f ; float sceneMirPosCount(time) ; sceneMirPosCount:long_name = "Scene Mirror Position Count; Number of viewers in a sequence" ; sceneMirPosCount:units = "unitless" ; sceneMirPosCount:resolution = 1.f ; sceneMirPosCount:missing_value = -9999.f ; float sceneMirPosEncoder(time) ; sceneMirPosEncoder:long_name = "Scene mirror position encoder value" ; sceneMirPosEncoder:units = "unitless" ; sceneMirPosEncoder:resolution = 1.f ; sceneMirPosEncoder:missing_value = -9999.f ; float ABBtopTemp(time) ; ABBtopTemp:long_name = "Ambient blackbody temperature - rim top" ; ABBtopTemp:units = "K" ; ABBtopTemp:resolution = 0.001f ; ABBtopTemp:missing_value = -9999.f ; float ABBapexTemp(time) ; ABBapexTemp:long_name = "Ambient blackbody temperature - apex" ; ABBapexTemp:units = "K" ; ABBapexTemp:resolution = 0.001f ; ABBapexTemp:missing_value = -9999.f ; float ABBbottomTemp(time) ; ABBbottomTemp:long_name = "Ambient blackbody temperature" ; ABBbottomTemp:units = "K" ; ABBbottomTemp:resolution = 0.001f ; ABBbottomTemp:missing_value = -9999.f ; float HBBtopTemp(time) ; HBBtopTemp:long_name = "Hot blackbody temperature - rim top" ; HBBtopTemp:units = "K" ; HBBtopTemp:resolution = 0.001f ; HBBtopTemp:missing_value = -9999.f ; float HBBapexTemp(time) ; HBBapexTemp:long_name = "Hot blackbody temperature - apex" ; HBBapexTemp:units = "K" ; HBBapexTemp:resolution = 0.001f ; HBBapexTemp:missing_value = -9999.f ; float HBBbottomTemp(time) ; HBBbottomTemp:long_name = "Hot backbody temperature - rim bottom" ; HBBbottomTemp:units = "K" ; HBBbottomTemp:resolution = 0.001f ; HBBbottomTemp:missing_value = -9999.f ; float fixed2500ohmResistor(time) ; fixed2500ohmResistor:long_name = "Resistive temperature of 2500 Ohm fixed resistor - banana plug mounted" ; fixed2500ohmResistor:units = "K" ; fixed2500ohmResistor:resolution = 0.001f ; fixed2500ohmResistor:missing_value = -9999.f ; float fixed97KohmResistor(time) ; fixed97KohmResistor:long_name = "Resistive temperature of 97 Kohm fixed resistor located in SCE-P4 shell" ; fixed97KohmResistor:units = "K" ; fixed97KohmResistor:resolution = 0.001f ; fixed97KohmResistor:missing_value = -9999.f ; float outsideAirTemp(time) ; outsideAirTemp:long_name = "Ambient air temperature at hatch opening" ; outsideAirTemp:units = "K" ; outsideAirTemp:resolution = 0.001f ; outsideAirTemp:missing_value = -9999.f ; float airNearInterferometerTemp(time) ; airNearInterferometerTemp:long_name = "Ambient air temperature near the interferometer" ; airNearInterferometerTemp:units = "K" ; airNearInterferometerTemp:resolution = 0.001f ; airNearInterferometerTemp:missing_value = -9999.f ; float interferometerSecondPortTemp(time) ; interferometerSecondPortTemp:long_name = "Interferometer Second Port Temperature" ; interferometerSecondPortTemp:units = "K" ; interferometerSecondPortTemp:resolution = 0.001f ; interferometerSecondPortTemp:missing_value = -9999.f ; float BBsupportStructureTemp(time) ; BBsupportStructureTemp:long_name = "BB Support Structure Temperature" ; BBsupportStructureTemp:units = "K" ; BBsupportStructureTemp:resolution = 0.001f ; BBsupportStructureTemp:missing_value = -9999.f ; float airNearBBsTemp(time) ; airNearBBsTemp:long_name = "Ambient air temperature near blackbodies" ; airNearBBsTemp:units = "K" ; airNearBBsTemp:resolution = 0.001f ; airNearBBsTemp:missing_value = -9999.f ; float mirrorMotorTemp(time) ; mirrorMotorTemp:long_name = "Mirror Motor Case Temperature" ; mirrorMotorTemp:units = "K" ; mirrorMotorTemp:resolution = 0.001f ; mirrorMotorTemp:missing_value = -9999.f ; float sceneMirrorTemp(time) ; sceneMirrorTemp:long_name = "Scene mirror temperature as measured at the center of the back of the mirror" ; sceneMirrorTemp:units = "K" ; sceneMirrorTemp:resolution = 0.001f ; sceneMirrorTemp:missing_value = -9999.f ; float fixed12KohmResistor(time) ; fixed12KohmResistor:long_name = "12 KOhm Fixed Resistor Temperature" ; fixed12KohmResistor:units = "K" ; fixed12KohmResistor:resolution = 1.f ; fixed12KohmResistor:missing_value = -9999.f ; float BBcontroller1temp(time) ; BBcontroller1temp:long_name = "BB Controller #1 Temperature " ; BBcontroller1temp:units = "K" ; BBcontroller1temp:resolution = 0.001f ; BBcontroller1temp:missing_value = -9999.f ; float BBcontroller2temp(time) ; BBcontroller2temp:long_name = "BB Controller #2 Temperature" ; BBcontroller2temp:units = "K" ; BBcontroller2temp:resolution = 0.001f ; BBcontroller2temp:missing_value = -9999.f ; float coolerCompressorTemp(time) ; coolerCompressorTemp:long_name = "Cooler Compressor Temperature" ; coolerCompressorTemp:units = "K" ; coolerCompressorTemp:resolution = 0.001f ; coolerCompressorTemp:missing_value = -9999.f ; float coolerExpanderTemp(time) ; coolerExpanderTemp:long_name = "Cooler Expander Temperature" ; coolerExpanderTemp:units = "K" ; coolerExpanderTemp:resolution = 0.001f ; coolerExpanderTemp:missing_value = -9999.f ; float coolerPowerSupplyTemp(time) ; coolerPowerSupplyTemp:long_name = "Cooler Power Supply Temperature" ; coolerPowerSupplyTemp:units = "K" ; coolerPowerSupplyTemp:resolution = 0.001f ; coolerPowerSupplyTemp:missing_value = -9999.f ; float rackAmbientTemp(time) ; rackAmbientTemp:long_name = "Electronics Rack Ambient Temperature" ; rackAmbientTemp:units = "K" ; rackAmbientTemp:resolution = 0.001f ; rackAmbientTemp:missing_value = -9999.f ; float computerTemp(time) ; computerTemp:long_name = "Ingest Computer Temperature" ; computerTemp:units = "K" ; computerTemp:resolution = 0.001f ; computerTemp:missing_value = -9999.f ; float motorDriverTemp(time) ; motorDriverTemp:long_name = "Moter Driver Temperature" ; motorDriverTemp:units = "K" ; motorDriverTemp:resolution = 0.001f ; motorDriverTemp:missing_value = -9999.f ; float SCEtemp(time) ; SCEtemp:long_name = "Signal conditioning electronics inside air temperature" ; SCEtemp:units = "K" ; SCEtemp:resolution = 0.001f ; SCEtemp:missing_value = -9999.f ; float coolerCurrent(time) ; coolerCurrent:long_name = "Stirling Cooler Current" ; coolerCurrent:units = "A" ; coolerCurrent:resolution = 0.001f ; coolerCurrent:missing_value = -9999.f ; float detectorTemp(time) ; detectorTemp:long_name = "Detector Temperature" ; detectorTemp:units = "K" ; detectorTemp:resolution = 0.001f ; detectorTemp:missing_value = -9999.f ; float rainSensorIntensity(time) ; rainSensorIntensity:long_name = "Rain sensor analog output" ; rainSensorIntensity:units = "mm/hr" ; rainSensorIntensity:resolution = 1.f ; rainSensorIntensity:missing_value = -9999.f ; float interferometerWindowTemp(time) ; interferometerWindowTemp:long_name = "Interferometer Window Temperature" ; interferometerWindowTemp:units = "K" ; interferometerWindowTemp:resolution = 0.001f ; interferometerWindowTemp:missing_value = -9999.f ; float frontEndFanAirUnheatedTemp(time) ; frontEndFanAirUnheatedTemp:long_name = "Front End Fan Airflow Unheated Temperature" ; frontEndFanAirUnheatedTemp:units = "K" ; frontEndFanAirUnheatedTemp:resolution = 0.001f ; frontEndFanAirUnheatedTemp:missing_value = -9999.f ; float frontEndFanAirHeatedTemp(time) ; frontEndFanAirHeatedTemp:long_name = "Front End Fan Airflow Heated Temperature" ; frontEndFanAirHeatedTemp:units = "K" ; frontEndFanAirHeatedTemp:resolution = 0.001f ; frontEndFanAirHeatedTemp:missing_value = -9999.f ; float spareTemp(time) ; spareTemp:long_name = "Spare Temperature" ; spareTemp:units = "K" ; spareTemp:resolution = 0.001f ; spareTemp:missing_value = -9999.f ; float atmosphericRelativeHumidity(time) ; atmosphericRelativeHumidity:long_name = "Relative humidity measured near Blackbodies. Use with Air Temperature Near BBs only." ; atmosphericRelativeHumidity:units = "% RH" ; atmosphericRelativeHumidity:resolution = 0.1f ; atmosphericRelativeHumidity:missing_value = -9999.f ; float interferometerEnclosureRelativeHumidity(time) ; interferometerEnclosureRelativeHumidity:long_name = "Interferometer Enclosure Relative Humidity" ; interferometerEnclosureRelativeHumidity:units = "% RH" ; interferometerEnclosureRelativeHumidity:resolution = 0.1f ; interferometerEnclosureRelativeHumidity:missing_value = -9999.f ; float atmosphericPressure(time) ; atmosphericPressure:long_name = "Observation atmospheric pressure in AERI electronics" ; atmosphericPressure:units = "hPa" ; atmosphericPressure:resolution = 0.1f ; atmosphericPressure:missing_value = -9999.f ; float maxSampleStdDev(time) ; maxSampleStdDev:long_name = "Maximum Standard Deviation in Thermistor Channels 0..7" ; maxSampleStdDev:units = "K" ; maxSampleStdDev:resolution = 0.001f ; maxSampleStdDev:missing_value = -9999.f ; float sceneMirrorAngle(time) ; sceneMirrorAngle:long_name = "Scene mirror view angle in non-negative degrees, measured clockwise looking in" ; sceneMirrorAngle:units = "deg" ; sceneMirrorAngle:resolution = 0.01f ; sceneMirrorAngle:missing_value = -9999.f ; float sceneMirrorMotorStep(time) ; sceneMirrorMotorStep:long_name = "Scene Mirror Motor Step Setting" ; sceneMirrorMotorStep:units = "motor steps" ; sceneMirrorMotorStep:resolution = 1.f ; sceneMirrorMotorStep:missing_value = -9999.f ; float opticsCompartmentRelativeHumidity(time) ; opticsCompartmentRelativeHumidity:long_name = "Optics Compartment Relative Humidity" ; opticsCompartmentRelativeHumidity:units = "%" ; opticsCompartmentRelativeHumidity:resolution = 1.f ; opticsCompartmentRelativeHumidity:missing_value = -9999.f ; float hatchOpen(time) ; hatchOpen:long_name = "Boolean with negative error conditions: 1:Open 0:Closed -1:Fault -2:Outside Valid Range -3:Neither Open Nor Closed " ; hatchOpen:units = "unitless" ; hatchOpen:resolution = 1.f ; hatchOpen:missing_value = -9999.f ; float ABBmaxTempDiff(time) ; ABBmaxTempDiff:long_name = "Maximum Temperature Difference Between ABB Thermistors" ; ABBmaxTempDiff:units = "K" ; ABBmaxTempDiff:resolution = 0.001f ; ABBmaxTempDiff:missing_value = -9999.f ; float HBBmaxTempDiff(time) ; HBBmaxTempDiff:long_name = "Maximum Temperature Difference Between HBB Thermistors" ; HBBmaxTempDiff:units = "K" ; HBBmaxTempDiff:resolution = 0.001f ; HBBmaxTempDiff:missing_value = -9999.f ; float frontEndFanAirTempDiff(time) ; frontEndFanAirTempDiff:long_name = "Front End Fan Air Temperature Difference" ; frontEndFanAirTempDiff:units = "K" ; frontEndFanAirTempDiff:resolution = 0.001f ; frontEndFanAirTempDiff:missing_value = -9999.f ; float sceneMirPosEncoderDrift(time) ; sceneMirPosEncoderDrift:long_name = "Scene Mirror Encoder Position Drift" ; sceneMirPosEncoderDrift:units = "steps" ; sceneMirPosEncoderDrift:resolution = 1.f ; sceneMirPosEncoderDrift:missing_value = -9999.f ; float channelNumber(time) ; channelNumber:long_name = "AERI instrument data channel number" ; channelNumber:units = "unitless" ; channelNumber:resolution = 1.f ; channelNumber:missing_value = -9999.f ; float missingDataFlag(time) ; missingDataFlag:long_name = "Logical flag indicating that a data record is missing (true/false)" ; missingDataFlag:units = "unitless" ; missingDataFlag:resolution = 1.f ; missingDataFlag:missing_value = -9999.f ; float calibrationAmbientTemp(time) ; calibrationAmbientTemp:long_name = "Ambient temperature used in calibration" ; calibrationAmbientTemp:units = "K" ; calibrationAmbientTemp:resolution = 0.001f ; calibrationAmbientTemp:missing_value = -9999.f ; float calibrationCBBtemp(time) ; calibrationCBBtemp:long_name = "Cold blackbody temperature used in calibration" ; calibrationCBBtemp:units = "K" ; calibrationCBBtemp:resolution = 0.001f ; calibrationCBBtemp:missing_value = -9999.f ; float calibrationHBBtemp(time) ; calibrationHBBtemp:long_name = "Hot blackbody temperature used in calibration" ; calibrationHBBtemp:units = "K" ; calibrationHBBtemp:resolution = 0.001f ; calibrationHBBtemp:missing_value = -9999.f ; float calibratedSceneID(time) ; calibratedSceneID:long_name = "Calibrated Scene Type Identification" ; calibratedSceneID:units = "Type of scene that has been calibrated (ASCII character as float)" ; calibratedSceneID:resolution = 1.f ; calibratedSceneID:missing_value = -9999.f ; float ABBtopTempWeight(time) ; ABBtopTempWeight:long_name = "Ambient Blackbody top temperature weight" ; ABBtopTempWeight:units = "/1" ; ABBtopTempWeight:resolution = 0.001f ; ABBtopTempWeight:missing_value = -9999.f ; float ABBapexTempWeight(time) ; ABBapexTempWeight:long_name = "Ambient Blackbody apex temperature weight" ; ABBapexTempWeight:units = "/1" ; ABBapexTempWeight:resolution = 0.001f ; ABBapexTempWeight:missing_value = -9999.f ; float ABBbottomTempWeight(time) ; ABBbottomTempWeight:long_name = "Ambient Blackbody bottom temperature weight" ; ABBbottomTempWeight:units = "/1" ; ABBbottomTempWeight:resolution = 0.001f ; ABBbottomTempWeight:missing_value = -9999.f ; float HBBtopTempWeight(time) ; HBBtopTempWeight:long_name = "Hot Blackbody top temperature weight" ; HBBtopTempWeight:units = "/1" ; HBBtopTempWeight:resolution = 0.001f ; HBBtopTempWeight:missing_value = -9999.f ; float HBBapexTempWeight(time) ; HBBapexTempWeight:long_name = "Hot Blackbody apex temperature weight" ; HBBapexTempWeight:units = "/1" ; HBBapexTempWeight:resolution = 0.001f ; HBBapexTempWeight:missing_value = -9999.f ; float HBBbottomTempWeight(time) ; HBBbottomTempWeight:long_name = "Hot Blackbody bottom temperature weight" ; HBBbottomTempWeight:units = "/1" ; HBBbottomTempWeight:resolution = 0.001f ; HBBbottomTempWeight:missing_value = -9999.f ; float ABBtempOffset(time) ; ABBtempOffset:long_name = "Ambient blackbody temperature offset" ; ABBtempOffset:units = "K" ; ABBtempOffset:resolution = 0.001f ; ABBtempOffset:missing_value = -9999.f ; float HBBtempOffset(time) ; HBBtempOffset:long_name = "Hot blackbody temperature offset" ; HBBtempOffset:units = "K" ; HBBtempOffset:resolution = 0.001f ; HBBtempOffset:missing_value = -9999.f ; float BBcavityFactor(time) ; BBcavityFactor:long_name = "Blackbody cavity geometry factor" ; BBcavityFactor:units = "unitless" ; BBcavityFactor:resolution = 1.f ; BBcavityFactor:missing_value = -9999.f ; float sceneMirPosEncoderMaxDrift(time) ; sceneMirPosEncoderMaxDrift:long_name = "Scene Mirror Position Encoder Maximum Drift" ; sceneMirPosEncoderMaxDrift:units = "steps" ; sceneMirPosEncoderMaxDrift:resolution = 0.1f ; sceneMirPosEncoderMaxDrift:missing_value = -9999.f ; float FFOVhalfAngle(time) ; FFOVhalfAngle:long_name = "FFOV Half Angle" ; FFOVhalfAngle:units = "rad" ; FFOVhalfAngle:resolution = 0.001f ; FFOVhalfAngle:missing_value = -9999.f ; float numberOfTerms(time) ; numberOfTerms:long_name = "Number of Terms in FFOV Corrections" ; numberOfTerms:units = "unitless" ; numberOfTerms:resolution = 1.f ; numberOfTerms:missing_value = -9999.f ; float originalLaserWavenumber(time) ; originalLaserWavenumber:long_name = "Original Laser Wavenumber" ; originalLaserWavenumber:units = "cm^-1" ; originalLaserWavenumber:resolution = 0.001f ; originalLaserWavenumber:missing_value = -9999.f ; float outputLaserWavenumber(time) ; outputLaserWavenumber:long_name = "Ouput Laser Wavenumber" ; outputLaserWavenumber:units = "cm^-1" ; outputLaserWavenumber:resolution = 0.001f ; outputLaserWavenumber:missing_value = -9999.f ; float originalInterferogramSize(time) ; originalInterferogramSize:long_name = "Initial Spectral Buffer Size" ; originalInterferogramSize:units = "32-bit words" ; originalInterferogramSize:resolution = 1.f ; originalInterferogramSize:missing_value = -9999.f ; float expandedInterferogramSize(time) ; expandedInterferogramSize:long_name = "Expanded Spectral Buffer Size" ; expandedInterferogramSize:units = "32-bit words" ; expandedInterferogramSize:resolution = 1.f ; expandedInterferogramSize:missing_value = -9999.f ; float surfaceLayerRadiance675_680(time) ; surfaceLayerRadiance675_680:long_name = "Longwave radiance average (675-680 cm^-1) Surface Air" ; surfaceLayerRadiance675_680:units = "mW/(m^2 sr cm^-1)" ; surfaceLayerRadiance675_680:resolution = 0.0001f ; surfaceLayerRadiance675_680:missing_value = -9999.f ; float elevatedLayerRadiance700_705(time) ; elevatedLayerRadiance700_705:long_name = "Longwave radiance average (700_705 cm^-1) Elevated Air" ; elevatedLayerRadiance700_705:units = "mW/(m^2 sr cm^-1)" ; elevatedLayerRadiance700_705:resolution = 0.0001f ; elevatedLayerRadiance700_705:missing_value = -9999.f ; float longwaveWindowRadiance985_990(time) ; longwaveWindowRadiance985_990:long_name = "Longwave window radiance average (985_990 cm^-1)" ; longwaveWindowRadiance985_990:units = "mW/(m^2 sr cm^-1)" ; longwaveWindowRadiance985_990:resolution = 0.0001f ; longwaveWindowRadiance985_990:missing_value = -9999.f ; float surfaceLayerRadiance2295_2300(time) ; surfaceLayerRadiance2295_2300:long_name = "Shortwave radiance average (2295_2300 cm^-1) Surface Air" ; surfaceLayerRadiance2295_2300:units = "mW/(m^2 sr cm^-1)" ; surfaceLayerRadiance2295_2300:resolution = 1.e-06f ; surfaceLayerRadiance2295_2300:missing_value = -9999.f ; float elevatedLayerRadiance2282_2287(time) ; elevatedLayerRadiance2282_2287:long_name = "Shortwave radiance average (2282_2287 cm^-1) Elevated Air" ; elevatedLayerRadiance2282_2287:units = "mW/(m^2 sr cm^-1)" ; elevatedLayerRadiance2282_2287:resolution = 1.e-06f ; elevatedLayerRadiance2282_2287:missing_value = -9999.f ; float shortwaveWindowRadiance2510_2515(time) ; shortwaveWindowRadiance2510_2515:long_name = "Shortwave window radiance average (2510_2515 cm^-1)" ; shortwaveWindowRadiance2510_2515:units = "mW/(m^2 sr cm^-1)" ; shortwaveWindowRadiance2510_2515:resolution = 1.e-06f ; shortwaveWindowRadiance2510_2515:missing_value = -9999.f ; float surfaceLayerAirTemp675_680(time) ; surfaceLayerAirTemp675_680:long_name = "Longwave surface air brightness temperature from radiance average (675_680 cm^-1)" ; surfaceLayerAirTemp675_680:units = "K" ; surfaceLayerAirTemp675_680:resolution = 0.0001f ; surfaceLayerAirTemp675_680:missing_value = -9999.f ; float elevatedLayerAirTemp700_705(time) ; elevatedLayerAirTemp700_705:long_name = "Longwave elevated air brightness temperature from radiance average (700_705 cm^-1)" ; elevatedLayerAirTemp700_705:units = "K" ; elevatedLayerAirTemp700_705:resolution = 0.0001f ; elevatedLayerAirTemp700_705:missing_value = -9999.f ; float longwaveWindowAirTemp985_990(time) ; longwaveWindowAirTemp985_990:long_name = "Longwave window brightness temperature from radiance average (985_990 cm^-1)" ; longwaveWindowAirTemp985_990:units = "K" ; longwaveWindowAirTemp985_990:resolution = 0.0001f ; longwaveWindowAirTemp985_990:missing_value = -9999.f ; float surfaceLayerAirTemp2295_2300(time) ; surfaceLayerAirTemp2295_2300:long_name = "Shortwave surface air brightness temperature from radiance average (2295_2300 cm^-1)" ; surfaceLayerAirTemp2295_2300:units = "K" ; surfaceLayerAirTemp2295_2300:resolution = 0.0001f ; surfaceLayerAirTemp2295_2300:missing_value = -9999.f ; float elevatedLayerAirTemp2282_2287(time) ; elevatedLayerAirTemp2282_2287:long_name = "Shortwave elevated air brightness temperature from radiance average (2282_2287 cm^-1)" ; elevatedLayerAirTemp2282_2287:units = "K" ; elevatedLayerAirTemp2282_2287:resolution = 0.0001f ; elevatedLayerAirTemp2282_2287:missing_value = -9999.f ; float shortwaveWindowAirTemp2510_2515(time) ; shortwaveWindowAirTemp2510_2515:long_name = "Shortwave window brightness temperature from radiance average (2510_2515 cm^-1)" ; shortwaveWindowAirTemp2510_2515:units = "K" ; shortwaveWindowAirTemp2510_2515:resolution = 0.0001f ; shortwaveWindowAirTemp2510_2515:missing_value = -9999.f ; float skyViewStdDevRadiance675_680(time) ; skyViewStdDevRadiance675_680:long_name = "Radiance standard deviation during sky view averaged over (675_680 cm^-1)" ; skyViewStdDevRadiance675_680:units = "mW/(m^2 sr cm^-1)" ; skyViewStdDevRadiance675_680:resolution = 1.e-07f ; skyViewStdDevRadiance675_680:missing_value = -9999.f ; float skyViewStdDevRadiance700_705(time) ; skyViewStdDevRadiance700_705:long_name = "Radiance standard deviation during sky view averaged over (700_705 cm^-1)" ; skyViewStdDevRadiance700_705:units = "mW/(m^2 sr cm^-1)" ; skyViewStdDevRadiance700_705:resolution = 1.e-07f ; skyViewStdDevRadiance700_705:missing_value = -9999.f ; float skyViewStdDevRadiance985_990(time) ; skyViewStdDevRadiance985_990:long_name = "Radiance standard deviation during sky view averaged over (985_990 cm^-1)" ; skyViewStdDevRadiance985_990:units = "mW/(m^2 sr cm^-1)" ; skyViewStdDevRadiance985_990:resolution = 1.e-07f ; skyViewStdDevRadiance985_990:missing_value = -9999.f ; float skyViewStdDevRadiance2295_2300(time) ; skyViewStdDevRadiance2295_2300:long_name = "Radiance standard deviation during sky view averaged over (2295_2300 cm^-1)" ; skyViewStdDevRadiance2295_2300:units = "mW/(m^2 sr cm^-1)" ; skyViewStdDevRadiance2295_2300:resolution = 1.e-07f ; skyViewStdDevRadiance2295_2300:missing_value = -9999.f ; float skyViewStdDevRadiance2282_2287(time) ; skyViewStdDevRadiance2282_2287:long_name = "Radiance standard deviation during sky view averaged over (2282_2287 cm^-1)" ; skyViewStdDevRadiance2282_2287:units = "mW/(m^2 sr cm^-1)" ; skyViewStdDevRadiance2282_2287:resolution = 1.e-07f ; skyViewStdDevRadiance2282_2287:missing_value = -9999.f ; float skyViewStdDevRadiance2510_2515(time) ; skyViewStdDevRadiance2510_2515:long_name = "Radiance standard deviation during sky view averaged over (2510_2515 cm^-1)" ; skyViewStdDevRadiance2510_2515:units = "mW/(m^2 sr cm^-1)" ; skyViewStdDevRadiance2510_2515:resolution = 1.e-07f ; skyViewStdDevRadiance2510_2515:missing_value = -9999.f ; float HBBviewStdDevRadiance675_680(time) ; HBBviewStdDevRadiance675_680:long_name = "HBB View Radiance Std Deviation (675_680 cm^-1)" ; HBBviewStdDevRadiance675_680:units = "mW/(m^2 sr cm^-1)" ; HBBviewStdDevRadiance675_680:resolution = 1.e-07f ; HBBviewStdDevRadiance675_680:missing_value = -9999.f ; float HBBviewStdDevRadiance700_705(time) ; HBBviewStdDevRadiance700_705:long_name = "HBB View Radiance Std Deviation (700_705 cm^-1)" ; HBBviewStdDevRadiance700_705:units = "mW/(m^2 sr cm^-1)" ; HBBviewStdDevRadiance700_705:resolution = 1.e-07f ; HBBviewStdDevRadiance700_705:missing_value = -9999.f ; float HBBviewStdDevRadiance985_990(time) ; HBBviewStdDevRadiance985_990:long_name = "HBB View Radiance Std Deviation (985_990 cm^-1)" ; HBBviewStdDevRadiance985_990:units = "mW/(m^2 sr cm^-1)" ; HBBviewStdDevRadiance985_990:resolution = 1.e-07f ; HBBviewStdDevRadiance985_990:missing_value = -9999.f ; float HBBviewStdDevRadiance2295_2300(time) ; HBBviewStdDevRadiance2295_2300:long_name = "HBB View Radiance Std Deviation (2295_2300 cm^-1)" ; HBBviewStdDevRadiance2295_2300:units = "mW/(m^2 sr cm^-1)" ; HBBviewStdDevRadiance2295_2300:resolution = 1.e-07f ; HBBviewStdDevRadiance2295_2300:missing_value = -9999.f ; float HBBviewStdDevRadiance2282_2287(time) ; HBBviewStdDevRadiance2282_2287:long_name = "HBB View Radiance Std Deviation (2282_2287 cm^-1)" ; HBBviewStdDevRadiance2282_2287:units = "mW/(m^2 sr cm^-1)" ; HBBviewStdDevRadiance2282_2287:resolution = 1.e-07f ; HBBviewStdDevRadiance2282_2287:missing_value = -9999.f ; float HBBviewStdDevRadiance2510_2515(time) ; HBBviewStdDevRadiance2510_2515:long_name = "HBB View Radiance Std Deviation (2510_2515 cm^-1)" ; HBBviewStdDevRadiance2510_2515:units = "mW/(m^2 sr cm^-1)" ; HBBviewStdDevRadiance2510_2515:resolution = 1.e-07f ; HBBviewStdDevRadiance2510_2515:missing_value = -9999.f ; float ABBviewStdDevRadiance675_680(time) ; ABBviewStdDevRadiance675_680:long_name = "ABB View Radiance Std Deviation (675_680 cm^-1)" ; ABBviewStdDevRadiance675_680:units = "mW/(m^2 sr cm^-1)" ; ABBviewStdDevRadiance675_680:resolution = 1.e-07f ; ABBviewStdDevRadiance675_680:missing_value = -9999.f ; float ABBviewStdDevRadiance700_705(time) ; ABBviewStdDevRadiance700_705:long_name = "ABB View Radiance Std Deviation (700_705 cm^-1)" ; ABBviewStdDevRadiance700_705:units = "mW/(m^2 sr cm^-1)" ; ABBviewStdDevRadiance700_705:resolution = 1.e-07f ; ABBviewStdDevRadiance700_705:missing_value = -9999.f ; float ABBviewStdDevRadiance985_990(time) ; ABBviewStdDevRadiance985_990:long_name = "ABB View Radiance Std Deviation (985_990 cm^-1)" ; ABBviewStdDevRadiance985_990:units = "mW/(m^2 sr cm^-1)" ; ABBviewStdDevRadiance985_990:resolution = 1.e-07f ; ABBviewStdDevRadiance985_990:missing_value = -9999.f ; float ABBviewStdDevRadiance2295_2300(time) ; ABBviewStdDevRadiance2295_2300:long_name = "ABB View Radiance Std Deviation (2295_2300 cm^-1)" ; ABBviewStdDevRadiance2295_2300:units = "mW/(m^2 sr cm^-1)" ; ABBviewStdDevRadiance2295_2300:resolution = 1.e-07f ; ABBviewStdDevRadiance2295_2300:missing_value = -9999.f ; float ABBviewStdDevRadiance2282_2287(time) ; ABBviewStdDevRadiance2282_2287:long_name = "ABB View Radiance Std Deviation (2282_2287 cm^-1)" ; ABBviewStdDevRadiance2282_2287:units = "mW/(m^2 sr cm^-1)" ; ABBviewStdDevRadiance2282_2287:resolution = 1.e-07f ; ABBviewStdDevRadiance2282_2287:missing_value = -9999.f ; float ABBviewStdDevRadiance2510_2515(time) ; ABBviewStdDevRadiance2510_2515:long_name = "ABB View Radiance Std Deviation (2510_2515 cm^-1)" ; ABBviewStdDevRadiance2510_2515:units = "mW/(m^2 sr cm^-1)" ; ABBviewStdDevRadiance2510_2515:resolution = 1.e-07f ; ABBviewStdDevRadiance2510_2515:missing_value = -9999.f ; float twoMinuteNoiseEstimateFactor(time) ; twoMinuteNoiseEstimateFactor:long_name = "Two-Minute Noise Estimate Factor" ; twoMinuteNoiseEstimateFactor:units = "unitless" ; twoMinuteNoiseEstimateFactor:resolution = 1.e-05f ; twoMinuteNoiseEstimateFactor:missing_value = -9999.f ; float HBBstable(time) ; HBBstable:long_name = "Logical flag indicating whether HBB temperature is stable (true)\n", "or not stable (false). Determined using HBBtempDrift and HBBtempDriftLimit." ; HBBstable:units = "unitless" ; HBBstable:resolution = 1.f ; HBBstable:missing_value = -9999.f ; float SWskyNENacceptable(time) ; SWskyNENacceptable:long_name = "Logical flag indicating whether shortwave channel noise equivalent\n", "radiance is acceptable in sky view (true/false). Determined using SWskyNEN and SWskyNENlimit." ; SWskyNENacceptable:units = "unitless" ; SWskyNENacceptable:resolution = 1.f ; SWskyNENacceptable:missing_value = -9999.f ; float LWskyNENacceptable(time) ; LWskyNENacceptable:long_name = "Logical flag indicating whether longwave channel noise equivalent\n", "radiance is acceptable in sky view (true/false). Determined using LWskyNEN and LWskyNENlimit." ; LWskyNENacceptable:units = "unitless" ; LWskyNENacceptable:resolution = 1.f ; LWskyNENacceptable:missing_value = -9999.f ; float dataAvailable(time) ; dataAvailable:long_name = "Logical flag indicating whether any data is available at current time (true/false) " ; dataAvailable:units = "unitless" ; dataAvailable:resolution = 1.f ; dataAvailable:missing_value = -9999.f ; float HBBtempDrift(time) ; HBBtempDrift:long_name = "The maximum excursion of hot-blackbody temperature over 5 consecutive scenes, centered on the sky view" ; HBBtempDrift:units = "K" ; HBBtempDrift:resolution = 0.001f ; HBBtempDrift:missing_value = -9999.f ; float HBBtempDriftLimit(time) ; HBBtempDriftLimit:long_name = "Limit in Hot-blackbody Temperature Drift" ; HBBtempDriftLimit:units = "K" ; HBBtempDriftLimit:resolution = 0.001f ; HBBtempDriftLimit:missing_value = -9999.f ; float LWskyNEN(time) ; LWskyNEN:long_name = "The noise equivalent radiance observed in the longwave channel during a sky view at 1000 cm^-1" ; LWskyNEN:units = "mW/(m^2 sr cm^-1)" ; LWskyNEN:resolution = 0.0001f ; LWskyNEN:missing_value = -9999.f ; float LWskyNENlimit(time) ; LWskyNENlimit:long_name = "Longwave Sky NEN Limit" ; LWskyNENlimit:units = "mW/(m^2 sr cm^-1)" ; LWskyNENlimit:resolution = 0.0001f ; LWskyNENlimit:missing_value = -9999.f ; float SWskyNEN(time) ; SWskyNEN:long_name = "The noise equivalent radiance observed in the shortwave channel during a sky view at 2500 cm^-1" ; SWskyNEN:units = "mW/(m^2 sr cm^-1)" ; SWskyNEN:resolution = 1.e-06f ; SWskyNEN:missing_value = -9999.f ; float SWskyNENlimit(time) ; SWskyNENlimit:long_name = "Shortwave Sky NEN Limit" ; SWskyNENlimit:units = "mW/(m^2 sr cm^-1)" ; SWskyNENlimit:resolution = 1.e-06f ; SWskyNENlimit:missing_value = -9999.f ; float LW_HBB_NEN(time) ; LW_HBB_NEN:long_name = "Longwave HBB Noise-equivalent Radiance" ; LW_HBB_NEN:units = "mW/(m^2 sr cm^-1)" ; LW_HBB_NEN:resolution = 1.e-06f ; LW_HBB_NEN:missing_value = -9999.f ; float SW_HBB_NEN(time) ; SW_HBB_NEN:long_name = "Shortwave HBB Noise-equivalent Radiance" ; SW_HBB_NEN:units = "mW/(m^2 sr cm^-1)" ; SW_HBB_NEN:resolution = 1.e-06f ; SW_HBB_NEN:missing_value = -9999.f ; float SWresponsivity(time) ; SWresponsivity:long_name = "Characteristic value representing overall shortwave channel responsivity" ; SWresponsivity:units = "counts/[mW/(m^2 sr cm^-1)]" ; SWresponsivity:resolution = 1.e-05f ; SWresponsivity:missing_value = -9999.f ; float LWresponsivity(time) ; LWresponsivity:long_name = "Characteristic value representing overall longwave channel responsivity" ; LWresponsivity:units = "counts/[mW/(m^2 sr cm^-1)]" ; LWresponsivity:resolution = 1.e-05f ; LWresponsivity:missing_value = -9999.f ; float skyViewImaginaryRadiance675_680(time) ; skyViewImaginaryRadiance675_680:long_name = "Sky View Imaginary Radiance (675_680 cm^-1) " ; skyViewImaginaryRadiance675_680:units = "mW/(m^2 sr cm^-1)" ; skyViewImaginaryRadiance675_680:resolution = 0.01f ; skyViewImaginaryRadiance675_680:missing_value = -9999.f ; float skyViewImaginaryRadiance700_705(time) ; skyViewImaginaryRadiance700_705:long_name = "Sky View Imaginary Radiance (700_705 cm^-1) " ; skyViewImaginaryRadiance700_705:units = "mW/(m^2 sr cm^-1)" ; skyViewImaginaryRadiance700_705:resolution = 0.01f ; skyViewImaginaryRadiance700_705:missing_value = -9999.f ; float skyViewImaginaryRadiance985_990(time) ; skyViewImaginaryRadiance985_990:long_name = "Sky View Imaginary Radiance (985_990 cm^-1) " ; skyViewImaginaryRadiance985_990:units = "mW/(m^2 sr cm^-1)" ; skyViewImaginaryRadiance985_990:resolution = 0.01f ; skyViewImaginaryRadiance985_990:missing_value = -9999.f ; float skyViewImaginaryRadiance2295_2300(time) ; skyViewImaginaryRadiance2295_2300:long_name = "Sky View Imaginary Radiance (2295_2300 cm^-1) " ; skyViewImaginaryRadiance2295_2300:units = "mW/(m^2 sr cm^-1)" ; skyViewImaginaryRadiance2295_2300:resolution = 0.001f ; skyViewImaginaryRadiance2295_2300:missing_value = -9999.f ; float skyViewImaginaryRadiance2282_2287(time) ; skyViewImaginaryRadiance2282_2287:long_name = "Sky View Imaginary Radiance (2282_2287 cm^-1) " ; skyViewImaginaryRadiance2282_2287:units = "mW/(m^2 sr cm^-1)" ; skyViewImaginaryRadiance2282_2287:resolution = 0.001f ; skyViewImaginaryRadiance2282_2287:missing_value = -9999.f ; float skyViewImaginaryRadiance2510_2515(time) ; skyViewImaginaryRadiance2510_2515:long_name = "Sky View Imaginary Radiance (2510_2515 cm^-1) " ; skyViewImaginaryRadiance2510_2515:units = "mW/(m^2 sr cm^-1)" ; skyViewImaginaryRadiance2510_2515:resolution = 0.001f ; skyViewImaginaryRadiance2510_2515:missing_value = -9999.f ; float sunSensorIntensity(time) ; sunSensorIntensity:long_name = "Sun Sensor Intensity" ; sunSensorIntensity:units = "W/m^2" ; sunSensorIntensity:resolution = 0.001f ; sunSensorIntensity:missing_value = -9999.f ; float lat ; lat:long_name = "north latitude" ; lat:units = "degrees" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; float lon ; lon:long_name = "east longitude" ; lon:units = "degrees" ; lon:valid_min = -180.f ; lon:valid_max = 180.f ; float alt ; alt:long_name = "altitude" ; alt:units = "meters above Mean Sea Level" ; // global attributes: :ingest_software = " aeri_ingest.c,v 1.24 2003/10/08 21:56:21 gaustad process-ingest-aeri_ingest-7.4-0 $" ; :input_source = "aeri86:/data/collection/sgp/sgpaeriB6.00/031112.SUM" ; :site_id = "sgp" ; :facility_id = "B6 : Purcell" ; :resolution_description = "The resolution field attributes refer to the number of significant\n", "digits relative to the decimal point that should be used in\n", "calculations. Using fewer digits might result in greater uncertainty;\n", "using a larger number of digits should have no effect and thus is\n", "unnecessary. However, analyses based on differences in values with\n", "a larger number of significant digits than indicated could lead to\n", "erroneous results or misleading scientific conclusions.\n", "\n", "resolution for lat= 0.001\n", "resolution for lon = 0.001\n", "resolution for alt = 1" ; :comment = "The time assigned to each data point indicates the center of any period of averaging of the geophysical state" ; :comment_on_time = "The time assigned to each data point is identical to the Time and timeHHMMSS fields" ; :averaging_int = "Use sceneViewDuration" ; :proc_level = "b1" ; :Ingest_OHWHIO_version = "$State: Release2_601 $" ; :Instrument_OHWHIO_version = "$State: Release2_600 $" ; :sample_int = "about 443 seconds" ; :dateYYMMDD = "31112.0 YYMMDD" ; :dateYYMMDD_description = "Observation date" ; :FFOVhalfAngle = "0.0230 radians" ; :FFOVhalfAngle_description = "Field of view half angle used in finite FOV correction" ; :originalLaserWavenumber = "15799.2998 cm-1" ; :originalLaserWavenumber_description = "Original laser wavenumber assumed for this instrument" ; :outputLaserWavenumber = "15799.0000 cm-1" ; :outputLaserWavenumber_description = "Laser wavenumber used in definition of output wavenumber scale" ; :originalInterferogramSize = "8192.0 32-bit words" ; :originalInterferogramSize_description = "Size of buffer holding initial spectrum" ; :expandedInterferogramSize = "131072.0 32-bit words" ; :expandedInterferogramSize_description = "Size of buffer holding expanded spectrum before interpolation" ; :serial_number = "2" ; :zeb_platform = "sgpaeriengineerB6.b1" ; :history = "created by user dsmgr on machine left at 13-Nov-2003,8:13:30, using $State: ds-zebra-zeblib-4.12-0 $" ; }