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Sample LRT NetCDF Header


netcdf RF07A.19780510.220753_281736 {
dimensions:
	Time = 22184 ;
	sps64 = 64 ;
variables:
	int Time(Time) ;
		Time:long_name = "time of measurement" ;
		Time:units = "seconds since 1978-05-10 00:00:00 +0000" ;
		Time:strptime_format = "seconds since %F %T %z" ;
		Time:standard_name = "time" ;
	float TPTIME(Time) ;
		TPTIME:long_name = "UNALTERED TAPE TIME (SEC) AFTER MIDNIGHT" ;
		TPTIME:units = "SECONDS" ;
		TPTIME:actual_range = 79673.f, 101856.f ;
		TPTIME:SampledRate = 1 ;
		TPTIME:_FillValue = -32767.f ;
	float PSXC(Time) ;
		PSXC:long_name = "CORRECTED STATIC PRESSURE (MB)" ;
		PSXC:units = "hPa" ;
		PSXC:actual_range = 483.482f, 1022.71f ;
		PSXC:SampledRate = 1 ;
		PSXC:_FillValue = -32767.f ;
	float ATX(Time) ;
		ATX:long_name = "AMBIENT TEMPERATURE (ROSEMOUNT) (C)" ;
		ATX:units = "deg_C" ;
		ATX:actual_range = -22.299f, 14.785f ;
		ATX:SampledRate = 1 ;
		ATX:_FillValue = -32767.f ;
	float DPXC(Time) ;
		DPXC:long_name = "DEWPOINT TEMPERATURE (THERMOELECTRIC)(C)" ;
		DPXC:units = "deg_C" ;
		DPXC:actual_range = -38.477f, 9.125999f ;
		DPXC:SampledRate = 1 ;
		DPXC:_FillValue = -32767.f ;
	float RHOTD(Time) ;
		RHOTD:long_name = "ABSOLUTE HUMIDITY (THERMOELEC) (G/M3)" ;
		RHOTD:units = "gram/m3" ;
		RHOTD:actual_range = 0.2040024f, 8.882004f ;
		RHOTD:SampledRate = 1 ;
		RHOTD:_FillValue = -32767.f ;
	float WDRCTN(Time) ;
		WDRCTN:long_name = "HORIZONTAL WIND DIRECTION (DEG)" ;
		WDRCTN:units = "degree" ;
		WDRCTN:actual_range = 0.005f, 359.991f ;
		WDRCTN:SampledRate = 1 ;
		WDRCTN:_FillValue = -32767.f ;
	float WSPD(Time) ;
		WSPD:long_name = "HORIZONTAL WIND SPEED (M/S)" ;
		WSPD:units = "m/s" ;
		WSPD:actual_range = 1.44f, 46.592f ;
		WSPD:SampledRate = 1 ;
		WSPD:_FillValue = -32767.f ;
	float UI1(Time) ;
		UI1:long_name = "WIND VECTOR EAST COMPONENT (M/S)" ;
		UI1:units = "m/s" ;
		UI1:actual_range = -7.875f, 41.23599f ;
		UI1:SampledRate = 1 ;
		UI1:_FillValue = -32767.f ;
	float VI1(Time) ;
		VI1:long_name = "WIND VECTOR NORTH COMPONENT (M/S)" ;
		VI1:units = "m/s" ;
		VI1:actual_range = -25.24699f, 3.632996f ;
		VI1:SampledRate = 1 ;
		VI1:_FillValue = -32767.f ;
	float UX1(Time) ;
		UX1:long_name = "WIND VECTOR LNGTDNL COMPONENT (M/S)" ;
		UX1:units = "m/s" ;
		UX1:actual_range = -43.47501f, 17.83f ;
		UX1:SampledRate = 1 ;
		UX1:_FillValue = -32767.f ;
	float VY1(Time) ;
		VY1:long_name = "WIND VECTOR LATERAL COMPONENT (M/S)" ;
		VY1:units = "m/s" ;
		VY1:actual_range = -37.69f, 43.571f ;
		VY1:SampledRate = 1 ;
		VY1:_FillValue = -32767.f ;
	float LAT(Time) ;
		LAT:long_name = "RAW INS LATITUDE        (DEG)" ;
		LAT:units = "degree_N" ;
		LAT:Category = "Position" ;
		LAT:standard_name = "latitude" ;
		LAT:valid_range = -90.f, 90.f ;
		LAT:actual_range = 302.147f, 316.597f ;
		LAT:SampledRate = 1 ;
		LAT:_FillValue = -32767.f ;
	float LON(Time) ;
		LON:long_name = "RAW INS LONGITUDE       (DEG)" ;
		LON:units = "degree_E" ;
		LON:Category = "Position" ;
		LON:standard_name = "longitude" ;
		LON:valid_range = -180.f, 180.f ;
		LON:actual_range = 171.417f, 172.59f ;
		LON:SampledRate = 1 ;
		LON:_FillValue = -32767.f ;
	float HP(Time) ;
		HP:long_name = "NACA PRESSURE ALTITUDE  (M)" ;
		HP:units = "m" ;
		HP:actual_range = 4.370003f, 5890.61f ;
		HP:SampledRate = 1 ;
		HP:_FillValue = -32767.f ;
	float HI31(Time) ;
		HI31:long_name = "PRESSURE DAMPED INERTIAL ALTITUDE (M)" ;
		HI31:units = "m" ;
		HI31:actual_range = 4.980003f, 5890.05f ;
		HI31:SampledRate = 1 ;
		HI31:_FillValue = -32767.f ;
	float HGM(Time) ;
		HGM:long_name = "GEOMETRIC (RADIO) ALTITUDE (M)" ;
		HGM:units = "m" ;
		HGM:actual_range = 0.9179993f, 774.809f ;
		HGM:SampledRate = 1 ;
		HGM:_FillValue = -32767.f ;
	float GSF(Time) ;
		GSF:long_name = "AIRCRAFT GROUND SPEED (M/S)" ;
		GSF:units = "m/s" ;
		GSF:actual_range = 26.971f, 173.04f ;
		GSF:SampledRate = 1 ;
		GSF:_FillValue = -32767.f ;
	float VEW(Time) ;
		VEW:long_name = "AIRCRAFT GROUND SPD EAST COMP (M/S)" ;
		VEW:units = "m/s" ;
		VEW:actual_range = -115.287f, 63.84802f ;
		VEW:SampledRate = 1 ;
		VEW:_FillValue = -32767.f ;
	float VNS(Time) ;
		VNS:long_name = "AIRCRAFT GROUND SPD NORTH COMP (M/S)" ;
		VNS:units = "m/s" ;
		VNS:actual_range = -172.479f, 146.012f ;
		VNS:SampledRate = 1 ;
		VNS:_FillValue = -32767.f ;
	float WP31(Time) ;
		WP31:long_name = "DAMPED AIRCRAFT VERT VELOCITY (M/S)" ;
		WP31:units = "m/s" ;
		WP31:actual_range = -8.555f, 8.028f ;
		WP31:SampledRate = 1 ;
		WP31:_FillValue = -32767.f ;
	float CGAC1(Time) ;
		CGAC1:long_name = "AIRCRAFT C.G. VERT ACCELERATION (M/S2)" ;
		CGAC1:units = "m/s2" ;
		CGAC1:actual_range = -2.566002f, -1.874001f ;
		CGAC1:SampledRate = 1 ;
		CGAC1:_FillValue = -32767.f ;
	float THF(Time) ;
		THF:long_name = "AIRCRAFT TRUE HEADING (YAW) (DEG)" ;
		THF:units = "degree" ;
		THF:actual_range = 0.f, 359.999f ;
		THF:SampledRate = 1 ;
		THF:_FillValue = -32767.f ;
	float ROLL(Time) ;
		ROLL:long_name = "AIRCRAFT ROLL ATTITUDE ANGLE (DEG)" ;
		ROLL:units = "degree" ;
		ROLL:actual_range = -31.101f, 26.895f ;
		ROLL:SampledRate = 1 ;
		ROLL:_FillValue = -32767.f ;
	float PITCH(Time) ;
		PITCH:long_name = "AIRCRAFT PITCH ATTITUDE ANGLE (DEG)" ;
		PITCH:units = "degree" ;
		PITCH:actual_range = -3.678001f, 7.860001f ;
		PITCH:SampledRate = 1 ;
		PITCH:_FillValue = -32767.f ;
	float TASX(Time) ;
		TASX:long_name = "AIRCRAFT TRUE AIRSPEED        (M/S)" ;
		TASX:units = "deg_C" ;
		TASX:actual_range = 29.575f, 158.487f ;
		TASX:SampledRate = 1 ;
		TASX:_FillValue = -32767.f ;
	float PRT5C(Time) ;
		PRT5C:long_name = "CORCTD IR SURFACE TEMP (PRT-5) (C)" ;
		PRT5C:units = "deg_C" ;
		PRT5C:actual_range = 5.825996f, 20.33f ;
		PRT5C:SampledRate = 1 ;
		PRT5C:_FillValue = -32767.f ;
	float UPYR1(Time) ;
		UPYR1:long_name = "DOWNWARD SW/WG-7 IRRADIANCE (WATTS/M2)" ;
		UPYR1:units = "W/M2" ;
		UPYR1:actual_range = -23.732f, 717.312f ;
		UPYR1:SampledRate = 1 ;
		UPYR1:_FillValue = -32767.f ;
	float UPYR2(Time) ;
		UPYR2:long_name = "DOWNWARD SW/OG-1 IRRADIANCE (WATTS/M2)" ;
		UPYR2:units = "W/M2" ;
		UPYR2:actual_range = -17.136f, 533.486f ;
		UPYR2:SampledRate = 1 ;
		UPYR2:_FillValue = -32767.f ;
	float UPYR3(Time) ;
		UPYR3:long_name = "DOWNWARD SW/RG-8 IRRADIANCE (WATTS/M2)" ;
		UPYR3:units = "W/M2" ;
		UPYR3:actual_range = -7.697998f, 389.612f ;
		UPYR3:SampledRate = 1 ;
		UPYR3:_FillValue = -32767.f ;
	float LPYR1(Time) ;
		LPYR1:long_name = "UPWARD SW/WG-7 IRRADIANCE (WATTS/M2)" ;
		LPYR1:units = "W/M2" ;
		LPYR1:actual_range = -5.199997f, 300.494f ;
		LPYR1:SampledRate = 1 ;
		LPYR1:_FillValue = -32767.f ;
	float LPYR2(Time) ;
		LPYR2:long_name = "UPWARD SW/OG-1 IRRADIANCE (WATTS/M2)" ;
		LPYR2:units = "W/M2" ;
		LPYR2:actual_range = -5.652f, 226.77f ;
		LPYR2:SampledRate = 1 ;
		LPYR2:_FillValue = -32767.f ;
	float LPYR3(Time) ;
		LPYR3:long_name = "UPWARD SW/RG-8 IRRADIANCE (WATTS/M2)" ;
		LPYR3:units = "W/M2" ;
		LPYR3:actual_range = -3.603996f, 147.472f ;
		LPYR3:SampledRate = 1 ;
		LPYR3:_FillValue = -32767.f ;
	float TTB5(Time) ;
		TTB5:long_name = "TOTAL TEMPERATURE (BOOM ROSEMOUNT) (C)" ;
		TTB5:units = "deg_C" ;
		TTB5:actual_range = -12.164f, 21.377f ;
		TTB5:SampledRate = 1 ;
		TTB5:_FillValue = -32767.f ;
	float TTF(Time) ;
		TTF:long_name = "TOTAL TEMP (FUSELAGE ROSEMOUNT) (C)" ;
		TTF:units = "deg_C" ;
		TTF:actual_range = -12.019f, 21.177f ;
		TTF:SampledRate = 1 ;
		TTF:_FillValue = -32767.f ;
	float DPL(Time) ;
		DPL:long_name = "DEW/FROSTPOINT TEMP (L THERMOELEC) (C)" ;
		DPL:units = "deg_C" ;
		DPL:actual_range = -35.062f, 9.125999f ;
		DPL:SampledRate = 1 ;
		DPL:_FillValue = -32767.f ;
	float DPR(Time) ;
		DPR:long_name = "DEW/FROSTPOINT TEMP (R THERMOELEC) (C)" ;
		DPR:units = "deg_C" ;
		DPR:actual_range = -36.96f, 27.915f ;
		DPR:SampledRate = 1 ;
		DPR:_FillValue = -32767.f ;
	float PSW(Time) ;
		PSW:long_name = "RAW STATIC PRESSURE (WINGTIP) (MB)" ;
		PSW:units = "hPa" ;
		PSW:actual_range = 485.42f, 1024.52f ;
		PSW:SampledRate = 1 ;
		PSW:_FillValue = -32767.f ;
	float QCW(Time) ;
		QCW:long_name = "RAW DYNAMIC PRESSURE (WINGTIP) (MB)" ;
		QCW:units = "hPa" ;
		QCW:actual_range = 5.241997f, 98.448f ;
		QCW:SampledRate = 1 ;
		QCW:_FillValue = -32767.f ;
	float PSB(Time) ;
		PSB:long_name = "RAW STATIC PRESSURE (BOOM) (MB)" ;
		PSB:units = "hPa" ;
		PSB:actual_range = 489.952f, 1025.256f ;
		PSB:SampledRate = 1 ;
		PSB:_FillValue = -32767.f ;
	float QCB(Time) ;
		QCB:long_name = "RAW DYNAMIC PRESSURE (BOOM) (MB)" ;
		QCB:units = "hPa" ;
		QCB:actual_range = 5.035004f, 91.537f ;
		QCB:SampledRate = 1 ;
		QCB:_FillValue = -32767.f ;
	float VZI(Time) ;
		VZI:long_name = "RAW INS VERTICAL VELOCITY   M/S" ;
		VZI:units = "m/s" ;
		VZI:actual_range = -53.6499f, 13.06006f ;
		VZI:SampledRate = 1 ;
		VZI:_FillValue = -32767.f ;
	float ALPHA(Time) ;
		ALPHA:long_name = "INS WANDER ANGLE (DEG)" ;
		ALPHA:units = "degree" ;
		ALPHA:actual_range = 220.725f, 221.589f ;
		ALPHA:SampledRate = 1 ;
		ALPHA:_FillValue = -32767.f ;
	float THI(Time) ;
		THI:long_name = "AIRCRAFT TRUE HEADING (ARINC) (DEG)" ;
		THI:units = "degree" ;
		THI:actual_range = 0.f, 359.999f ;
		THI:SampledRate = 1 ;
		THI:_FillValue = -32767.f ;
	float PRTWT(Time) ;
		PRTWT:long_name = "PRT-5 IRTRAN WINDOW TEMP (C)" ;
		PRTWT:units = "deg_C" ;
		PRTWT:actual_range = -5.737999f, 20.912f ;
		PRTWT:SampledRate = 1 ;
		PRTWT:_FillValue = -32767.f ;
	float PRT5R(Time) ;
		PRT5R:long_name = "RAW IR SURFACE TEMP(RANGE)" ;
		PRT5R:units = "RANGE" ;
		PRT5R:actual_range = 2.f, 7.f ;
		PRT5R:SampledRate = 1 ;
		PRT5R:_FillValue = -32767.f ;
	float PRT5(Time) ;
		PRT5:long_name = "RAW IR SURFACE TEMP PRT-5  (C)" ;
		PRT5:units = "deg_C" ;
		PRT5:actual_range = -8.494003f, 15.708f ;
		PRT5:SampledRate = 1 ;
		PRT5:_FillValue = -32767.f ;
	float CAMFC(Time) ;
		CAMFC:long_name = "16MM CAMERA FRAME COUNT" ;
		CAMFC:units = "unk" ;
		CAMFC:actual_range = 0.f, 1996.f ;
		CAMFC:SampledRate = 1 ;
		CAMFC:_FillValue = -32767.f ;
	float EVENT(Time) ;
		EVENT:long_name = "EVENT MARKERS" ;
		EVENT:units = "MARKS" ;
		EVENT:actual_range = 43776.f, 65280.f ;
		EVENT:SampledRate = 1 ;
		EVENT:_FillValue = -32767.f ;
	float UPDATE(Time) ;
		UPDATE:long_name = "INS/KNLBRG UPDATE FLAGS" ;
		UPDATE:units = "unk" ;
		UPDATE:actual_range = 29183.f, 32767.f ;
		UPDATE:SampledRate = 1 ;
		UPDATE:_FillValue = -32767.f ;
	float XVI(Time) ;
		XVI:long_name = "RAW INS GROUND SPD X COMPONENT (M/S)" ;
		XVI:units = "m/s" ;
		XVI:actual_range = -125.025f, 147.021f ;
		XVI:SampledRate = 1 ;
		XVI:_FillValue = -32767.f ;
	float YVI(Time) ;
		YVI:long_name = "RAW INS GROUND SPD Y COMPONENT (M/S)" ;
		YVI:units = "m/s" ;
		YVI:actual_range = -110.552f, 139.9f ;
		YVI:SampledRate = 1 ;
		YVI:_FillValue = -32767.f ;
	float KNLBG(Time, sps64) ;
		KNLBG:long_name = "RAW PMS DATA (64 WORDS)" ;
		KNLBG:units = "COUNTS" ;
		KNLBG:actual_range = 0.f, 13107.f ;
		KNLBG:SampledRate = 64 ;
		KNLBG:_FillValue = -32767.f ;
	float UVSPO(Time) ;
		UVSPO:long_name = "U-V SPECTROMETER OUTPUT  (VDC)   (3)" ;
		UVSPO:units = "Vdc" ;
		UVSPO:actual_range = Infinityf, Infinityf ;
		UVSPO:SampledRate = 1 ;
		UVSPO:_FillValue = -32767.f ;
	float UVSPH(Time) ;
		UVSPH:long_name = "U-V SPECTROMETER HOUSEKEEPING(VDC) (4)" ;
		UVSPH:units = "Vdc" ;
		UVSPH:actual_range = Infinityf, Infinityf ;
		UVSPH:SampledRate = 1 ;
		UVSPH:_FillValue = -32767.f ;
	float PIGPR(Time) ;
		PIGPR:long_name = "P. I. G. PRESSURE (MB)      (5)" ;
		PIGPR:units = "hPa" ;
		PIGPR:actual_range = 998.986f, 1077.54f ;
		PIGPR:SampledRate = 1 ;
		PIGPR:_FillValue = -32767.f ;
	float GTDO3(Time) ;
		GTDO3:long_name = "GEORGIA TECH. DASIBI OZONE (PPB) (6)" ;
		GTDO3:units = "1/10e9" ;
		GTDO3:actual_range = 2.098999f, 48.218f ;
		GTDO3:SampledRate = 1 ;
		GTDO3:_FillValue = -32767.f ;
	float NDO3(Time) ;
		NDO3:long_name = "NCAR DASIBI OZONE (PPB)    (7)" ;
		NDO3:units = "1/10e9" ;
		NDO3:actual_range = 7.056f, 53.442f ;
		NDO3:SampledRate = 1 ;
		NDO3:_FillValue = -32767.f ;
	float NEO3(Time) ;
		NEO3:long_name = "EYTHLENE (CSI) OZONE  (PPB)   (8)" ;
		NEO3:units = "1/10e9" ;
		NEO3:actual_range = 5.614998f, 62.05099f ;
		NEO3:SampledRate = 1 ;
		NEO3:_FillValue = -32767.f ;
	float DRSO2(Time) ;
		DRSO2:long_name = "DREXEL OUTPUT X1 (VDC)    (9)" ;
		DRSO2:units = "Vdc" ;
		DRSO2:actual_range = Infinityf, Infinityf ;
		DRSO2:SampledRate = 1 ;
		DRSO2:_FillValue = -32767.f ;
	float DRSO2H(Time) ;
		DRSO2H:long_name = "DREXEL OUTPUT X10 (VDC)    (10)" ;
		DRSO2H:units = "X10" ;
		DRSO2H:actual_range = NaNf, Infinityf ;
		DRSO2H:SampledRate = 1 ;
		DRSO2H:_FillValue = -32767.f ;
	float DRPRB(Time) ;
		DRPRB:long_name = "DREXEL PRESSURE X2 (VDC)   (11)" ;
		DRPRB:units = "Vdc" ;
		DRPRB:actual_range = Infinityf, Infinityf ;
		DRPRB:SampledRate = 1 ;
		DRPRB:_FillValue = -32767.f ;
	float ENV1O(Time) ;
		ENV1O:long_name = "C. N. COUNTER OUTPUT (VDC)    (12)" ;
		ENV1O:units = "Vdc" ;
		ENV1O:actual_range = Infinityf, Infinityf ;
		ENV1O:SampledRate = 1 ;
		ENV1O:_FillValue = -32767.f ;
	float ENV1R(Time) ;
		ENV1R:long_name = "C. N. COUNTER RANGE (VDC)   (19)" ;
		ENV1R:units = "Vdc" ;
		ENV1R:actual_range = Infinityf, Infinityf ;
		ENV1R:SampledRate = 1 ;
		ENV1R:_FillValue = -32767.f ;
	float PCAB(Time) ;
		PCAB:long_name = "CABIN PRESSURE (MB)     (13)" ;
		PCAB:units = "hPa" ;
		PCAB:actual_range = 886.608f, 1037.222f ;
		PCAB:SampledRate = 1 ;
		PCAB:_FillValue = -32767.f ;
	float GCECD(Time) ;
		GCECD:long_name = "NCAR G.C. ECD OUTPUT (VDC)   (14)" ;
		GCECD:units = "Vdc" ;
		GCECD:actual_range = Infinityf, Infinityf ;
		GCECD:SampledRate = 1 ;
		GCECD:_FillValue = -32767.f ;
	float GCFID(Time) ;
		GCFID:long_name = "NCAR G. C. FID OUTPUT (VDC)   (15)" ;
		GCFID:units = "Vdc" ;
		GCFID:actual_range = Infinityf, Infinityf ;
		GCFID:SampledRate = 1 ;
		GCFID:_FillValue = -32767.f ;
	float GCSPR(Time) ;
		GCSPR:long_name = "NCAR G.C. SAMPLE PRESSURE (VDC) (16)" ;
		GCSPR:units = "Vdc" ;
		GCSPR:actual_range = Infinityf, Infinityf ;
		GCSPR:SampledRate = 1 ;
		GCSPR:_FillValue = -32767.f ;
	float NOX(Time) ;
		NOX:long_name = "YORK UNIV. OUTPUT (VDC)    (17)" ;
		NOX:units = "Vdc" ;
		NOX:actual_range = Infinityf, Infinityf ;
		NOX:SampledRate = 1 ;
		NOX:_FillValue = -32767.f ;
	float NOXHK(Time) ;
		NOXHK:long_name = "YORK UNIV. HOUSEKEEPING (VDC)  (18)" ;
		NOXHK:units = "Vdc" ;
		NOXHK:actual_range = Infinityf, Infinityf ;
		NOXHK:SampledRate = 1 ;
		NOXHK:_FillValue = -32767.f ;
	float SAMPR(Time) ;
		SAMPR:long_name = "SAMOVAR PRESSURE (MB) (2)" ;
		SAMPR:units = "hPa" ;
		SAMPR:actual_range = -6.174004f, 1.494003f ;
		SAMPR:SampledRate = 1 ;
		SAMPR:_FillValue = -32767.f ;
	float USER1(Time) ;
		USER1:long_name = "USER INPUT NO. 1  (VDC)" ;
		USER1:units = "Vdc" ;
		USER1:actual_range = Infinityf, Infinityf ;
		USER1:SampledRate = 1 ;
		USER1:_FillValue = -32767.f ;

// global attributes:
		:institution = "NCAR Research Aviation Facility" ;
		:Address = "P.O. Box 3000, Boulder, CO 80307-3000" ;
		:creator_url = "http://www.eol.ucar.edu" ;
		:Conventions = "NCAR-RAF/nimbus" ;
		:ConventionsURL = "http://www.eol.ucar.edu/raf/Software/netCDF.html" ;
		:ConventionsVersion = "1.3" ;
		:Metadata_Conventions = "Unidata Dataset Discovery v1.0" ;
		:standard_name_vocabulary = "CF-1.0" ;
		:time_coordinate = "Time" ;
		:Phone = "(303) 497-1030" ;
		:ProcessorURL = "https://github.com/ncareol/GENPRO" ;
		:ProcessorRevision = "8ff1ae2e-dirty" ;
		:Categories = "Position,Thermodynamic,Aircraft State,Atmos. State" ;
		:geospatial_vertical_positive = "up" ;
		:date_created = "2016-08-09T18:35:53 +0000" ;
		:Platform = "N308D" ;
		:wind_field = "WSPD WDRCTN" ;
		:time_coverage_start = "1978-05-10T22:07:53 +0000" ;
		:time_coverage_end = "1978-05-10T28:17:36 +0000" ;
		:TimeInterval = "22:07:53-28:17:36" ;
		:FlightDate = "05/10/1978" ;
		:geospatial_lat_min = 302.147f ;
		:geospatial_lat_max = 316.597f ;
		:latitude_coordinate = "LAT" ;
		:geospatial_lon_min = 171.417f ;
		:geospatial_lon_max = 172.59f ;
		:longitude_coordinate = "LON" ;
		:zaxis_coordinate = "HP" ;
		:geospatial_vertical_units = "m" ;
		:geospatial_vertical_min = 4.370003f ;
		:geospatial_vertical_max = 5890.61f ;
		:DESCRIPTION = "884-7 GAMETAG78 10MAY78        22/04/08" ;
		:CYCLE_TIME = 1.f ;
		:FlightNumber = "RF07A" ;
		:ProjectName = "GAMETAG (Global Atmospheric Measurements Experiment on Tropospheric Aerosols and Gases)" ;
		:converted_from = "G32136" ;
}

Publication or Paper Condensational growth of drops formed on giant sea-salt aerosol particles

Publication or Paper Reduction of the entrainment velocity by cloud droplet sedimentation in stratocumulus

Sample HRT Header NetCDF Format


netcdf RF01A.19780427.165129_225629 {
dimensions:
	Time = 21901 ;
	sps20 = 20 ;
	sps64 = 64 ;
variables:
	int Time(Time) ;
		Time:long_name = "time of measurement" ;
		Time:units = "seconds since 1978-04-27 00:00:00 +0000" ;
		Time:strptime_format = "seconds since %F %T %z" ;
		Time:standard_name = "time" ;
	float TPTIME(Time) ;
		TPTIME:long_name = "UNALTERED TAPE TIME (SEC) AFTER MIDNIGHT" ;
		TPTIME:units = "s" ;
		TPTIME:actual_range = 60689.f, 82589.f ;
		TPTIME:SampledRate = 1 ;
		TPTIME:_FillValue = -32767.f ;
	float PSXC1(Time) ;
		PSXC1:long_name = "CORRECTED STATIC PRESSURE (MB)" ;
		PSXC1:units = "hPa" ;
		PSXC1:actual_range = 464.038f, 1018.674f ;
		PSXC1:SampledRate = 1 ;
		PSXC1:_FillValue = -32767.f ;
	float ATF1(Time) ;
		ATF1:long_name = "AMBIENT TEMP (FUSELAGE ROSEMOUNT) (C)" ;
		ATF1:units = "deg_C" ;
		ATF1:actual_range = -23.826f, 24.262f ;
		ATF1:SampledRate = 1 ;
		ATF1:_FillValue = -32767.f ;
	float DPXC(Time) ;
		DPXC:long_name = "DEWPOINT TEMPERATURE (THERMOELEC) (C)" ;
		DPXC:units = "deg_C" ;
		DPXC:actual_range = -40.617f, 11.316f ;
		DPXC:SampledRate = 1 ;
		DPXC:_FillValue = -32767.f ;
	float DPLAC1(Time) ;
		DPLAC1:long_name = "DEWPOINT TEMPERATURE (LYMAN-ALPHA) (C)" ;
		DPLAC1:units = "deg_C" ;
		DPLAC1:actual_range = -47.106f, 13.097f ;
		DPLAC1:SampledRate = 1 ;
		DPLAC1:_FillValue = -32767.f ;
	float RHOTD(Time) ;
		RHOTD:long_name = "ABSOLUTE HUMIDITY (THERMOELEC) (G/M3)" ;
		RHOTD:units = "gram/m3" ;
		RHOTD:actual_range = 0.1529999f, 9.998001f ;
		RHOTD:SampledRate = 1 ;
		RHOTD:_FillValue = -32767.f ;
	float RHOLA1(Time) ;
		RHOLA1:long_name = "ABSOLUTE HUMIDITY (LYMAN-ALPHA) (G/M3)" ;
		RHOLA1:units = "gram/m3" ;
		RHOLA1:actual_range = 0.0719986f, 11.255f ;
		RHOLA1:SampledRate = 1 ;
		RHOLA1:_FillValue = -32767.f ;
	float WDRCTN(Time) ;
		WDRCTN:long_name = "HORIZONTAL WIND DIRECTION (DEG)" ;
		WDRCTN:units = "degree" ;
		WDRCTN:actual_range = 0.026f, 359.983f ;
		WDRCTN:SampledRate = 1 ;
		WDRCTN:_FillValue = -32767.f ;
	float WSPD(Time) ;
		WSPD:long_name = "HORIZONTAL WIND SPEED (M/S)" ;
		WSPD:units = "m/s" ;
		WSPD:actual_range = 0.02f, 69.046f ;
		WSPD:SampledRate = 1 ;
		WSPD:_FillValue = -32767.f ;
	float UI1(Time) ;
		UI1:long_name = "WIND VECTOR EAST COMPONENT (M/S)" ;
		UI1:units = "m/s" ;
		UI1:actual_range = -29.513f, 26.37199f ;
		UI1:SampledRate = 1 ;
		UI1:_FillValue = -32767.f ;
	float VI1(Time) ;
		VI1:long_name = "WIND VECTOR NORTH COMPONENT (M/S)" ;
		VI1:units = "m/s" ;
		VI1:actual_range = -22.64799f, 31.67999f ;
		VI1:SampledRate = 1 ;
		VI1:_FillValue = -32767.f ;
	float WI1(Time) ;
		WI1:long_name = "WIND VECTOR VERT GUST COMPONENT (M/S)" ;
		WI1:units = "m/s" ;
		WI1:actual_range = -4.524002f, 7.415001f ;
		WI1:SampledRate = 1 ;
		WI1:_FillValue = -32767.f ;
	float UX1(Time) ;
		UX1:long_name = "WIND VECTOR LNGTDNL COMPONENT (M/S)" ;
		UX1:units = "m/s" ;
		UX1:actual_range = -35.01401f, 11.86099f ;
		UX1:SampledRate = 1 ;
		UX1:_FillValue = -32767.f ;
	float VY1(Time) ;
		VY1:long_name = "WIND VECTOR LATERAL COMPONENT (M/S)" ;
		VY1:units = "m/s" ;
		VY1:actual_range = -39.049f, 22.461f ;
		VY1:SampledRate = 1 ;
		VY1:_FillValue = -32767.f ;
	float LAT(Time) ;
		LAT:long_name = "RAW INS LATITUDE (DEG)" ;
		LAT:units = "degree_N" ;
		LAT:Category = "Position" ;
		LAT:standard_name = "latitude" ;
		LAT:valid_range = -90.f, 90.f ;
		LAT:actual_range = 32.73199f, 39.711f ;
		LAT:SampledRate = 1 ;
		LAT:_FillValue = -32767.f ;
	float LON(Time) ;
		LON:long_name = "RAW INS LONGITUDE (DEG)" ;
		LON:units = "degree_E" ;
		LON:Category = "Position" ;
		LON:standard_name = "longitude" ;
		LON:valid_range = -180.f, 180.f ;
		LON:actual_range = -121.978f, 3.102005f ;
		LON:SampledRate = 1 ;
		LON:_FillValue = -32767.f ;
	float HP(Time) ;
		HP:long_name = "NACA PRESSURE ALTITUDE (M)" ;
		HP:units = "m" ;
		HP:actual_range = -45.04f, 6118.41f ;
		HP:SampledRate = 1 ;
		HP:_FillValue = -32767.f ;
	float HI31(Time) ;
		HI31:long_name = "PRESSURE DAMPED INERTIAL ALTITUDE (M)" ;
		HI31:units = "m" ;
		HI31:actual_range = -44.26f, 6113.1f ;
		HI31:SampledRate = 1 ;
		HI31:_FillValue = -32767.f ;
	float HGM(Time) ;
		HGM:long_name = "GEOMETRIC (RADIO) ALTITUDE (M)" ;
		HGM:units = "m" ;
		HGM:actual_range = 0.2030029f, 774.644f ;
		HGM:SampledRate = 1 ;
		HGM:_FillValue = -32767.f ;
	float GSF1(Time) ;
		GSF1:long_name = "RAW AIRCRAFT (INS) GROUND SPEED (M/S)" ;
		GSF1:units = "m/s" ;
		GSF1:actual_range = 0.002f, 1048.575f ;
		GSF1:SampledRate = 1 ;
		GSF1:_FillValue = -32767.f ;
	float VEW1(Time) ;
		VEW1:long_name = "AIRCRAFT GROUND SPD EAST COMP (M/S)" ;
		VEW1:units = "m/s" ;
		VEW1:actual_range = -144.25f, 548.575f ;
		VEW1:SampledRate = 1 ;
		VEW1:_FillValue = -32767.f ;
	float VNS1(Time) ;
		VNS1:long_name = "AIRCRAFT GROUND SPD NORTH COMP (M/S)" ;
		VNS1:units = "m/s" ;
		VNS1:actual_range = -148.755f, 548.575f ;
		VNS1:SampledRate = 1 ;
		VNS1:_FillValue = -32767.f ;
	float WP31(Time) ;
		WP31:long_name = "DAMPED AIRCRAFT VERT VELOCITY (M/S)" ;
		WP31:units = "m/s" ;
		WP31:actual_range = -12.076f, 12.139f ;
		WP31:SampledRate = 1 ;
		WP31:_FillValue = -32767.f ;
	float CGAC1(Time) ;
		CGAC1:long_name = "AIRCRAFT C.G. VERT ACCELERATION (M/S2)" ;
		CGAC1:units = "m/s2" ;
		CGAC1:actual_range = -23.699f, -15.107f ;
		CGAC1:SampledRate = 1 ;
		CGAC1:_FillValue = -32767.f ;
	float THF1(Time) ;
		THF1:long_name = "AIRCRAFT TRUE HEADING (YAW) (DEG)" ;
		THF1:units = "degree" ;
		THF1:actual_range = 0.03f, 359.989f ;
		THF1:SampledRate = 1 ;
		THF1:_FillValue = -32767.f ;
	float ROLL1(Time) ;
		ROLL1:long_name = "AIRCRAFT ROLL ATTITUDE ANGLE (DEG)" ;
		ROLL1:units = "degree" ;
		ROLL1:actual_range = -32.424f, 36.10001f ;
		ROLL1:SampledRate = 1 ;
		ROLL1:_FillValue = -32767.f ;
	float PITCH1(Time) ;
		PITCH1:long_name = "AIRCRAFT PITCH ATTITUDE ANGLE (DEG)" ;
		PITCH1:units = "degree" ;
		PITCH1:actual_range = -4.720001f, 9.478996f ;
		PITCH1:SampledRate = 1 ;
		PITCH1:_FillValue = -32767.f ;
	float TASX1(Time) ;
		TASX1:long_name = "AIRCRAFT TRUE AIRSPEED (M/S)" ;
		TASX1:units = "m/s" ;
		TASX1:actual_range = 0.4049988f, 165.039f ;
		TASX1:SampledRate = 1 ;
		TASX1:_FillValue = -32767.f ;
	float C(Time) ;
		C:long_name = "CORCTD RADIOMTRC SURFACE TEMP (PRT-5)(C) PRT5C" ;
		C:units = "unk" ;
		C:actual_range = 2.931999f, 55.242f ;
		C:SampledRate = 1 ;
		C:_FillValue = -32767.f ;
	float UPYR1(Time) ;
		UPYR1:long_name = "DOWNWARD SW/WG-7 IRRADIANCE (WATTS/M2)" ;
		UPYR1:units = "W/M2" ;
		UPYR1:actual_range = -97.562f, 1997.15f ;
		UPYR1:SampledRate = 1 ;
		UPYR1:_FillValue = -32767.f ;
	float UPYR2(Time) ;
		UPYR2:long_name = "DOWNWARD SW/OG-1 IRRADIANCE (WATTS/M2)" ;
		UPYR2:units = "W/M2" ;
		UPYR2:actual_range = -75.336f, 924.516f ;
		UPYR2:SampledRate = 1 ;
		UPYR2:_FillValue = -32767.f ;
	float UPYR3(Time) ;
		UPYR3:long_name = "DOWNWARD SW/RG-8 IRRADIANCE (WATTS/M2)" ;
		UPYR3:units = "W/M2" ;
		UPYR3:actual_range = -59.66f, 676.54f ;
		UPYR3:SampledRate = 1 ;
		UPYR3:_FillValue = -32767.f ;
	float LPYR1(Time) ;
		LPYR1:long_name = "UPWARD SW/WG-7 IRRADIANCE (WATTS/M2)" ;
		LPYR1:units = "W/M2" ;
		LPYR1:actual_range = -51.91f, 873.78f ;
		LPYR1:SampledRate = 1 ;
		LPYR1:_FillValue = -32767.f ;
	float LPYR2(Time) ;
		LPYR2:long_name = "UPWARD SW/OG-1 IRRADIANCE (WATTS/M2)" ;
		LPYR2:units = "W/M2" ;
		LPYR2:actual_range = -39.648f, 486.262f ;
		LPYR2:SampledRate = 1 ;
		LPYR2:_FillValue = -32767.f ;
	float LPYR3(Time) ;
		LPYR3:long_name = "UPWARD SW/RG-8 IRRADIANCE (WATTS/M2)" ;
		LPYR3:units = "W/M2" ;
		LPYR3:actual_range = -27.59f, 382.348f ;
		LPYR3:SampledRate = 1 ;
		LPYR3:_FillValue = -32767.f ;
	float TTB1(Time) ;
		TTB1:long_name = "TOTAL TEMPERATURE (BOOM ROSEMOUNT) (C)" ;
		TTB1:units = "deg_C" ;
		TTB1:actual_range = -13.505f, 25.539f ;
		TTB1:SampledRate = 1 ;
		TTB1:_FillValue = -32767.f ;
	float TTF1(Time) ;
		TTF1:long_name = "TOTAL TEMP (FUSELAGE ROSEMOUNT) (C)" ;
		TTF1:units = "deg_C" ;
		TTF1:actual_range = -13.511f, 25.515f ;
		TTF1:SampledRate = 1 ;
		TTF1:_FillValue = -32767.f ;
	float DPL(Time) ;
		DPL:long_name = "DEW/FROST POINT TEMP (L THERMOELEC) (C)" ;
		DPL:units = "deg_C" ;
		DPL:actual_range = -37.083f, 11.316f ;
		DPL:SampledRate = 1 ;
		DPL:_FillValue = -32767.f ;
	float DPR(Time) ;
		DPR:long_name = "DEW/FROST POINT TEMP (R THERMOELEC) (C)" ;
		DPR:units = "deg_C" ;
		DPR:actual_range = -38.062f, 11.57f ;
		DPR:SampledRate = 1 ;
		DPR:_FillValue = -32767.f ;
	float PSW1(Time) ;
		PSW1:long_name = "RAW STATIC PRESSURE (WINGTIP) (MB)" ;
		PSW1:units = "hPa" ;
		PSW1:actual_range = 465.766f, 1018.638f ;
		PSW1:SampledRate = 1 ;
		PSW1:_FillValue = -32767.f ;
	float QCW1(Time) ;
		QCW1:long_name = "RAW DYNAMIC PRESSURE (WINGTIP) (MB)" ;
		QCW1:units = "hPa" ;
		QCW1:actual_range = -0.5210037f, 103.912f ;
		QCW1:SampledRate = 1 ;
		QCW1:_FillValue = -32767.f ;
	float PSB1(Time) ;
		PSB1:long_name = "RAW STATIC PRESSURE (BOOM) (MB)" ;
		PSB1:units = "hPa" ;
		PSB1:actual_range = 470.352f, 1019.708f ;
		PSB1:SampledRate = 1 ;
		PSB1:_FillValue = -32767.f ;
	float QCB1(Time) ;
		QCB1:long_name = "RAW DYNAMIC PRESSURE (BOOM) (MB)" ;
		QCB1:units = "hPa" ;
		QCB1:actual_range = -0.8199997f, 95.851f ;
		QCB1:SampledRate = 1 ;
		QCB1:_FillValue = -32767.f ;
	float DEI(Time) ;
		DEI:long_name = "DISTANCE EAST OF START (KM)" ;
		DEI:units = "km" ;
		DEI:actual_range = 8430.66f, 10006.62f ;
		DEI:SampledRate = 1 ;
		DEI:_FillValue = -32767.f ;
	float DNI(Time) ;
		DNI:long_name = "DISTANCE NORTH OF START (KM)" ;
		DNI:units = "km" ;
		DNI:actual_range = 9225.34f, 10000.16f ;
		DNI:SampledRate = 1 ;
		DNI:_FillValue = -32767.f ;
	float PCAB(Time) ;
		PCAB:long_name = "CABIN PRESSURE (MB)" ;
		PCAB:units = "hPa" ;
		PCAB:actual_range = 740.078f, 1011.93f ;
		PCAB:SampledRate = 1 ;
		PCAB:_FillValue = -32767.f ;
	float ALPHA(Time) ;
		ALPHA:long_name = "INS WANDER ANGLE (DEG)" ;
		ALPHA:units = "degree" ;
		ALPHA:actual_range = 166.676f, 176.607f ;
		ALPHA:SampledRate = 1 ;
		ALPHA:_FillValue = -32767.f ;
	float THI(Time) ;
		THI:long_name = "AIRCRAFT TRUE HEADING (ARINC) (DEG)" ;
		THI:units = "degree" ;
		THI:actual_range = 0.2440033f, 359.993f ;
		THI:SampledRate = 1 ;
		THI:_FillValue = -32767.f ;
	float PRT5WT(Time) ;
		PRT5WT:long_name = "PRT-5 IRTRAN WINDOW TEMPERATURE (C)" ;
		PRT5WT:units = "deg_C" ;
		PRT5WT:actual_range = -3.445f, 26.224f ;
		PRT5WT:SampledRate = 1 ;
		PRT5WT:_FillValue = -32767.f ;
	float PRT5R(Time) ;
		PRT5R:long_name = "RAW IR SURFACE TEMP(RANGE)" ;
		PRT5R:units = "RANGE" ;
		PRT5R:actual_range = 1.f, 7.f ;
		PRT5R:SampledRate = 1 ;
		PRT5R:_FillValue = -32767.f ;
	float PRT5(Time) ;
		PRT5:long_name = "RAW RADIOMETRIC SURFACE TEMP (PRT-5) (C)" ;
		PRT5:units = "unk" ;
		PRT5:actual_range = -12.968f, 75.076f ;
		PRT5:SampledRate = 1 ;
		PRT5:_FillValue = -32767.f ;
	float CAMFC(Time) ;
		CAMFC:long_name = "16MM CAMERA FRAME COUNT" ;
		CAMFC:units = "unk" ;
		CAMFC:actual_range = 0.f, 2011.f ;
		CAMFC:SampledRate = 1 ;
		CAMFC:_FillValue = -32767.f ;
	float EVMRKS(Time) ;
		EVMRKS:long_name = "EVENT MARKER WORD (16 BITS)" ;
		EVMRKS:units = "unk" ;
		EVMRKS:actual_range = 40704.f, 65324.f ;
		EVMRKS:SampledRate = 1 ;
		EVMRKS:_FillValue = -32767.f ;
	float UPDATE(Time) ;
		UPDATE:long_name = "INS/KNOLLENBERG UPDATE FLAGS" ;
		UPDATE:units = "unk" ;
		UPDATE:actual_range = 29183.f, 32767.f ;
		UPDATE:SampledRate = 1 ;
		UPDATE:_FillValue = -32767.f ;
	float ATKP(Time, sps20) ;
		ATKP:long_name = "AMBIENT TEMPERATURE (FAST RESPONSE) (C)" ;
		ATKP:units = "deg_C" ;
		ATKP:actual_range = -24.34f, 22.51f ;
		ATKP:SampledRate = 20 ;
		ATKP:_FillValue = -32767.f ;
	float ATBC(Time, sps20) ;
		ATBC:long_name = "AMBIENT TEMP (COMPNSTD BOOM ROSMNT) (C)" ;
		ATBC:units = "deg_C" ;
		ATBC:actual_range = -23.965f, 24.241f ;
		ATBC:SampledRate = 20 ;
		ATBC:_FillValue = -32767.f ;
	float TTBC(Time, sps20) ;
		TTBC:long_name = "TOTAL TEMP (COMPENSATED BOOM ROSMNT) (C)" ;
		TTBC:units = "deg_C" ;
		TTBC:actual_range = -13.999f, 26.302f ;
		TTBC:SampledRate = 20 ;
		TTBC:_FillValue = -32767.f ;
	float UI(Time, sps20) ;
		UI:long_name = "WIND VECTOR EAST GUST COMPONENT (M/S)" ;
		UI:units = "m/s" ;
		UI:actual_range = -89.177f, 848.575f ;
		UI:SampledRate = 20 ;
		UI:_FillValue = -32767.f ;
	float VI(Time, sps20) ;
		VI:long_name = "WIND VECTOR NORTH GUST COMPONENT (M/S)" ;
		VI:units = "m/s" ;
		VI:actual_range = -199.451f, 98.10699f ;
		VI:SampledRate = 20 ;
		VI:_FillValue = -32767.f ;
	float WI(Time, sps20) ;
		WI:long_name = "WIND VECTOR VERT GUST COMPONENT(HR)(M/S)" ;
		WI:units = "m/s" ;
		WI:actual_range = -6.330002f, 9.143997f ;
		WI:SampledRate = 20 ;
		WI:_FillValue = -32767.f ;
	float UX(Time, sps20) ;
		UX:long_name = "WIND VECTOR LNGTDNL GUST COMPONENT (M/S)" ;
		UX:units = "m/s" ;
		UX:actual_range = -86.495f, 47.491f ;
		UX:SampledRate = 20 ;
		UX:_FillValue = -32767.f ;
	float VY(Time, sps20) ;
		VY:long_name = "WIND VECTOR LATERAL GUST COMPONENT (M/S)" ;
		VY:units = "m/s" ;
		VY:actual_range = -22.00999f, 848.575f ;
		VY:SampledRate = 20 ;
		VY:_FillValue = -32767.f ;
	float RHOLA(Time, sps20) ;
		RHOLA:long_name = "ABSOLUTE HUMIDITY (LYMN-ALPHA HR) (G/M3)" ;
		RHOLA:units = "gram/m3" ;
		RHOLA:actual_range = 0.05999756f, 14.491f ;
		RHOLA:SampledRate = 20 ;
		RHOLA:_FillValue = -32767.f ;
	float LAV(Time, sps20) ;
		LAV:long_name = "RAW LYMAN-ALPHA HYGROMETER OUTPUT (VDC)" ;
		LAV:units = "Vdc" ;
		LAV:actual_range = -3.027f, 1.257004f ;
		LAV:SampledRate = 20 ;
		LAV:_FillValue = -32767.f ;
	float TTKP(Time, sps20) ;
		TTKP:long_name = "TOTAL TEMPERATURE (FAST RESPONSE) (C)" ;
		TTKP:units = "deg_C" ;
		TTKP:actual_range = -15.386f, 23.411f ;
		TTKP:SampledRate = 20 ;
		TTKP:_FillValue = -32767.f ;
	float TTB(Time, sps20) ;
		TTB:long_name = "TOTAL TEMPERATURE (BOOM ROSEMOUNT) (C)" ;
		TTB:units = "deg_C" ;
		TTB:actual_range = -13.752f, 25.935f ;
		TTB:SampledRate = 20 ;
		TTB:_FillValue = -32767.f ;
	float QCG(Time, sps20) ;
		QCG:long_name = "RAW DYNAMIC PRESSURE (GUST PROBE) (MB)" ;
		QCG:units = "hPa" ;
		QCG:actual_range = -3.424004f, 97.53101f ;
		QCG:SampledRate = 20 ;
		QCG:_FillValue = -32767.f ;
	float AROT(Time, sps20) ;
		AROT:long_name = "ATTACK ANGLE (ROTATING VANE) (DEG)" ;
		AROT:units = "degree" ;
		AROT:actual_range = -3.607002f, 11.026f ;
		AROT:SampledRate = 20 ;
		AROT:_FillValue = -32767.f ;
	float AFIX(Time, sps20) ;
		AFIX:long_name = "ATTACK ANGLE (FIXED VANE) (DEG)" ;
		AFIX:units = "degree" ;
		AFIX:actual_range = -20.f, 20.f ;
		AFIX:SampledRate = 20 ;
		AFIX:_FillValue = -32767.f ;
	float BROT(Time, sps20) ;
		BROT:long_name = "SIDESLIP ANGLE (ROTATING VANE) (DEG)" ;
		BROT:units = "degree" ;
		BROT:actual_range = -4.780998f, 6.237999f ;
		BROT:SampledRate = 20 ;
		BROT:_FillValue = -32767.f ;
	float BFIX(Time, sps20) ;
		BFIX:long_name = "SIDESLIP ANGLE (FIXED VANE) (DEG)" ;
		BFIX:units = "degree" ;
		BFIX:actual_range = -20.f, 20.f ;
		BFIX:SampledRate = 20 ;
		BFIX:_FillValue = -32767.f ;
	float VAC(Time, sps20) ;
		VAC:long_name = "GUST PROBE TIP VERT ACCELERATION (M/S2)" ;
		VAC:units = "m/s2" ;
		VAC:actual_range = -12.688f, 11.408f ;
		VAC:SampledRate = 20 ;
		VAC:_FillValue = -32767.f ;
	float LAC(Time, sps20) ;
		LAC:long_name = "GUST PROBE TIP LATERAL ACCEL. (M/S2)" ;
		LAC:units = "m/s2" ;
		LAC:actual_range = -14.843f, 14.231f ;
		LAC:SampledRate = 20 ;
		LAC:_FillValue = -32767.f ;
	float CGAC(Time, sps20) ;
		CGAC:long_name = "AIRCRAFT C.G. VERT ACCEL. (HR) (M/S2)" ;
		CGAC:units = "m/s2" ;
		CGAC:actual_range = -25.618f, -14.91f ;
		CGAC:SampledRate = 20 ;
		CGAC:_FillValue = -32767.f ;
	float VZI(Time, sps20) ;
		VZI:long_name = "RAW INS VERTICAL VELOCITY (M/S)" ;
		VZI:units = "m/s" ;
		VZI:actual_range = -151.1001f, 8.009766f ;
		VZI:SampledRate = 20 ;
		VZI:_FillValue = -32767.f ;
	float ROLL(Time, sps20) ;
		ROLL:long_name = "AIRCRAFT ROLL ATTITUDE ANGLE (HR) (DEG)" ;
		ROLL:units = "degree" ;
		ROLL:actual_range = -32.496f, 36.32899f ;
		ROLL:SampledRate = 20 ;
		ROLL:_FillValue = -32767.f ;
	float PITCH(Time, sps20) ;
		PITCH:long_name = "AIRCRAFT PITCH ATTITUDE ANGLE (HR) (DEG)" ;
		PITCH:units = "degree" ;
		PITCH:actual_range = -4.874001f, 9.510002f ;
		PITCH:SampledRate = 20 ;
		PITCH:_FillValue = -32767.f ;
	float THF(Time, sps20) ;
		THF:long_name = "AIRCRAFT TRUE HEADING (YAW) (HR) (DEG)" ;
		THF:units = "degree" ;
		THF:actual_range = 0.02500153f, 359.993f ;
		THF:SampledRate = 20 ;
		THF:_FillValue = -32767.f ;
	float XVI(Time, sps20) ;
		XVI:long_name = "RAW INS GROUND SPD X COMPONENT (M/S)" ;
		XVI:units = "m/s" ;
		XVI:actual_range = -152.212f, 149.927f ;
		XVI:SampledRate = 20 ;
		XVI:_FillValue = -32767.f ;
	float YVI(Time, sps20) ;
		YVI:long_name = "RAW INS GROUND SPD Y COMPONENT (M/S)" ;
		YVI:units = "m/s" ;
		YVI:actual_range = -302.996f, 548.575f ;
		YVI:SampledRate = 20 ;
		YVI:_FillValue = -32767.f ;
	float STRLW(Time, sps20) ;
		STRLW:long_name = "LEFT WING STRAIN (HR) (MICRO-IN/IN)" ;
		STRLW:units = "UIN/IN" ;
		STRLW:actual_range = -778.206f, 1097.15f ;
		STRLW:SampledRate = 20 ;
		STRLW:_FillValue = -32767.f ;
	float KNLBG(Time, sps64) ;
		KNLBG:long_name = "KNOLLENBERG 64 WORDS" ;
		KNLBG:units = "COUNTS" ;
		KNLBG:actual_range = 0.f, 13107.f ;
		KNLBG:SampledRate = 64 ;
		KNLBG:_FillValue = -32767.f ;
	float UVSPO(Time) ;
		UVSPO:long_name = "U-V SPECTROMETER OUTPUT  (VDC)   (3)" ;
		UVSPO:units = "Vdc" ;
		UVSPO:actual_range = Infinityf, Infinityf ;
		UVSPO:SampledRate = 1 ;
		UVSPO:_FillValue = -32767.f ;
	float UVSPH(Time) ;
		UVSPH:long_name = "U-V SPECTROMETER HOUSEKEEPING(VDC) (4)" ;
		UVSPH:units = "Vdc" ;
		UVSPH:actual_range = Infinityf, Infinityf ;
		UVSPH:SampledRate = 1 ;
		UVSPH:_FillValue = -32767.f ;
	float PIGPR(Time) ;
		PIGPR:long_name = "P. I. G. PRESSURE (MB)      (5)" ;
		PIGPR:units = "hPa" ;
		PIGPR:actual_range = 119.25f, 948.575f ;
		PIGPR:SampledRate = 1 ;
		PIGPR:_FillValue = -32767.f ;
	float GTDO3(Time) ;
		GTDO3:long_name = "GEORGIA TECH. DASIBI OZONE (PPB) (6)" ;
		GTDO3:units = "1/10e9" ;
		GTDO3:actual_range = -16.7f, 153.3f ;
		GTDO3:SampledRate = 1 ;
		GTDO3:_FillValue = -32767.f ;
	float NDO3(Time) ;
		NDO3:long_name = "NCAR DASIBI OZONE (PPB)    (7)" ;
		NDO3:units = "1/10e9" ;
		NDO3:actual_range = 4.900002f, 259.9f ;
		NDO3:SampledRate = 1 ;
		NDO3:_FillValue = -32767.f ;
	float NEO3(Time) ;
		NEO3:long_name = "EYTHLENE (CSI) OZONE  (PPB)   (8)" ;
		NEO3:units = "1/10e9" ;
		NEO3:actual_range = -41.9f, 118.56f ;
		NEO3:SampledRate = 1 ;
		NEO3:_FillValue = -32767.f ;
	float DRSO2(Time) ;
		DRSO2:long_name = "DREXEL OUTPUT X1 (VDC)    (9)" ;
		DRSO2:units = "Vdc" ;
		DRSO2:actual_range = Infinityf, Infinityf ;
		DRSO2:SampledRate = 1 ;
		DRSO2:_FillValue = -32767.f ;
	float DRSO2-1(Time) ;
		DRSO2-1:long_name = "DREXEL OUTPUT X10 (VDC)    (10)" ;
		DRSO2-1:units = "Vdc" ;
		DRSO2-1:actual_range = NaNf, Infinityf ;
		DRSO2-1:SampledRate = 1 ;
		DRSO2-1:_FillValue = -32767.f ;
	float DRPRB(Time) ;
		DRPRB:long_name = "DREXEL PRESSURE X2 (VDC)   (11)" ;
		DRPRB:units = "Vdc" ;
		DRPRB:actual_range = Infinityf, Infinityf ;
		DRPRB:SampledRate = 1 ;
		DRPRB:_FillValue = -32767.f ;
	float ENV1R(Time) ;
		ENV1R:long_name = "C.N. COUNTER RANGE (VDC)   (19)" ;
		ENV1R:units = "Vdc" ;
		ENV1R:actual_range = Infinityf, Infinityf ;
		ENV1R:SampledRate = 1 ;
		ENV1R:_FillValue = -32767.f ;
	float ENV1O(Time) ;
		ENV1O:long_name = "C. N. COUNTER OUTPUT (VDC)    (12)" ;
		ENV1O:units = "Vdc" ;
		ENV1O:actual_range = Infinityf, Infinityf ;
		ENV1O:SampledRate = 1 ;
		ENV1O:_FillValue = -32767.f ;
	float GCECD(Time) ;
		GCECD:long_name = "NCAR G.C. ECD OUTPUT (VDC)   (14)" ;
		GCECD:units = "Vdc" ;
		GCECD:actual_range = Infinityf, Infinityf ;
		GCECD:SampledRate = 1 ;
		GCECD:_FillValue = -32767.f ;
	float GCFID(Time) ;
		GCFID:long_name = "NCAR GC FID OUTPUT (VDC)   (15)" ;
		GCFID:units = "Vdc" ;
		GCFID:actual_range = Infinityf, Infinityf ;
		GCFID:SampledRate = 1 ;
		GCFID:_FillValue = -32767.f ;
	float GCSPR(Time) ;
		GCSPR:long_name = "NCAR G.C. SAMPLE PRESSURE (VDC) (16)" ;
		GCSPR:units = "Vdc" ;
		GCSPR:actual_range = Infinityf, Infinityf ;
		GCSPR:SampledRate = 1 ;
		GCSPR:_FillValue = -32767.f ;
	float NOX(Time) ;
		NOX:long_name = "YORK UNIV. OUTPUT (VDC)    (17)" ;
		NOX:units = "Vdc" ;
		NOX:actual_range = Infinityf, Infinityf ;
		NOX:SampledRate = 1 ;
		NOX:_FillValue = -32767.f ;
	float NOXHK(Time) ;
		NOXHK:long_name = "YORK UNIV. HOUSEKEEPING (VDC)  (18)" ;
		NOXHK:units = "Vdc" ;
		NOXHK:actual_range = -1.348f, 9.998001f ;
		NOXHK:SampledRate = 1 ;
		NOXHK:_FillValue = -32767.f ;
	float SAMPR(Time, sps20) ;
		SAMPR:long_name = "SAMOVAR PRESSURE (MB) (2)" ;
		SAMPR:units = "hPa" ;
		SAMPR:actual_range = -11.60001f, 0.4530029f ;
		SAMPR:SampledRate = 20 ;
		SAMPR:_FillValue = -32767.f ;
	float USER1(Time, sps20) ;
		USER1:long_name = "USER ONE" ;
		USER1:units = "unk" ;
		USER1:actual_range = -10.014f, 1.946999f ;
		USER1:SampledRate = 20 ;
		USER1:_FillValue = -32767.f ;

// global attributes:
		:institution = "NCAR Research Aviation Facility" ;
		:Address = "P.O. Box 3000, Boulder, CO 80307-3000" ;
		:creator_url = "http://www.eol.ucar.edu" ;
		:Conventions = "NCAR-RAF/nimbus" ;
		:ConventionsURL = "http://www.eol.ucar.edu/raf/Software/netCDF.html" ;
		:ConventionsVersion = "1.3" ;
		:Metadata_Conventions = "Unidata Dataset Discovery v1.0" ;
		:standard_name_vocabulary = "CF-1.0" ;
		:time_coordinate = "Time" ;
		:Phone = "(303) 497-1030" ;
		:ProcessorURL = "https://github.com/ncareol/GENPRO" ;
		:ProcessorRevision = "8ff1ae2e-dirty" ;
		:Categories = "Position,Thermodynamic,Aircraft State,Atmos. State" ;
		:geospatial_vertical_positive = "up" ;
		:date_created = "2016-08-09T18:35:42 +0000" ;
		:Platform = "N308D" ;
		:wind_field = "WSPD WDRCTN WI" ;
		:time_coverage_start = "1978-04-27T16:51:29 +0000" ;
		:time_coverage_end = "1978-04-27T22:56:29 +0000" ;
		:TimeInterval = "16:51:29-22:56:29" ;
		:FlightDate = "04/27/1978" ;
		:geospatial_lat_min = 32.73199f ;
		:geospatial_lat_max = 39.711f ;
		:latitude_coordinate = "LAT" ;
		:geospatial_lon_min = -121.978f ;
		:geospatial_lon_max = 3.102005f ;
		:longitude_coordinate = "LON" ;
		:zaxis_coordinate = "HP" ;
		:geospatial_vertical_units = "m" ;
		:geospatial_vertical_min = -45.04f ;
		:geospatial_vertical_max = 6118.41f ;
		:DESCRIPTION = "884A-01 GAMETAG 27APR78 16/49/00" ;
		:CYCLE_TIME = 1.f ;
		:FlightNumber = "RF01A" ;
		:ProjectName = "GAMETAG (Global Atmospheric Measurements Experiment on Tropospheric Aerosols and Gases)" ;
		:converted_from = "G32118" ;
}

Sample HRT Header NetCDF Format


netcdf RF03.19780207.104720_135651 {
dimensions:
	Time = 11372 ;
	sps10 = 10 ;
variables:
	int Time(Time) ;
		Time:long_name = "time of measurement" ;
		Time:units = "seconds since 1978-02-07 00:00:00 +0000" ;
		Time:strptime_format = "seconds since %F %T %z" ;
		Time:standard_name = "time" ;
	float TPTIME(Time) ;
		TPTIME:long_name = "UNALTERED TAPE TIME (SECONDS)" ;
		TPTIME:units = "s" ;
		TPTIME:actual_range = 38840.f, 50211.f ;
		TPTIME:SampledRate = 1 ;
		TPTIME:_FillValue = -32767.f ;
	float EVENT(Time) ;
		EVENT:long_name = "EVENT MARKS (COUNTS)" ;
		EVENT:units = "MARKS" ;
		EVENT:actual_range = 0.f, 2.f ;
		EVENT:SampledRate = 1 ;
		EVENT:_FillValue = -32767.f ;
	float FZV(Time) ;
		FZV:long_name = "FIXED ZERO VOLTAGE (VDC)" ;
		FZV:units = "Vdc" ;
		FZV:actual_range = 0.f, 0.f ;
		FZV:SampledRate = 1 ;
		FZV:_FillValue = -32767.f ;
	float PSFC(Time, sps10) ;
		PSFC:long_name = "CORRECTED STATIC PRESR (FUSELAGE) (MB)" ;
		PSFC:units = "hPa" ;
		PSFC:actual_range = 542.244f, 827.297f ;
		PSFC:SampledRate = 10 ;
		PSFC:_FillValue = -32767.f ;
	float PSBC(Time, sps10) ;
		PSBC:long_name = "CORRECTED STATIC PRESR (BOOM) (MB)" ;
		PSBC:units = "hPa" ;
		PSBC:actual_range = 542.448f, 828.021f ;
		PSBC:SampledRate = 10 ;
		PSBC:_FillValue = -32767.f ;
	float ATW(Time, sps10) ;
		ATW:long_name = "AMBIENT TEMPERATURE (ROSEMOUNT) (C)" ;
		ATW:units = "deg_C" ;
		ATW:actual_range = -20.834f, 6.349998f ;
		ATW:SampledRate = 10 ;
		ATW:_FillValue = -32767.f ;
	float ATRF(Time, sps10) ;
		ATRF:long_name = "AMBIENT TEMPERATURE (REVERSE-FLOW) (C)" ;
		ATRF:units = "deg_C" ;
		ATRF:actual_range = -20.323f, 5.735001f ;
		ATRF:SampledRate = 10 ;
		ATRF:_FillValue = -32767.f ;
	float DPC(Time, sps10) ;
		DPC:long_name = "DEWPOINT TEMPERATURE (THERMOELEC) (C)" ;
		DPC:units = "deg_C" ;
		DPC:actual_range = -35.764f, -0.697998f ;
		DPC:SampledRate = 10 ;
		DPC:_FillValue = -32767.f ;
	float RHOTD(Time, sps10) ;
		RHOTD:long_name = "ABSOLUTE HUMIDITY (THERMOELEC) (G/M3)" ;
		RHOTD:units = "gram/m3" ;
		RHOTD:actual_range = 0.2460022f, 4.591003f ;
		RHOTD:SampledRate = 10 ;
		RHOTD:_FillValue = -32767.f ;
	float WDRCTN(Time, sps10) ;
		WDRCTN:long_name = "HORIZONTAL WIND DIRECTION (GUST) (DEG)" ;
		WDRCTN:units = "degree" ;
		WDRCTN:actual_range = 0.03099823f, 359.985f ;
		WDRCTN:SampledRate = 10 ;
		WDRCTN:_FillValue = -32767.f ;
	float WSPD(Time, sps10) ;
		WSPD:long_name = "HORIZONTAL WIND SPEED (GUST) (M/S)" ;
		WSPD:units = "m/s" ;
		WSPD:actual_range = 0.2070007f, 17.074f ;
		WSPD:SampledRate = 10 ;
		WSPD:_FillValue = -32767.f ;
	float UI(Time, sps10) ;
		UI:long_name = "WIND VECTOR EAST GUST COMPONENT (M/S)" ;
		UI:units = "m/s" ;
		UI:actual_range = -8.880997f, 15.08f ;
		UI:SampledRate = 10 ;
		UI:_FillValue = -32767.f ;
	float VI(Time, sps10) ;
		VI:long_name = "WIND VECTOR NORTH GUST COMPONENT (M/S)" ;
		VI:units = "m/s" ;
		VI:actual_range = -10.573f, 13.493f ;
		VI:SampledRate = 10 ;
		VI:_FillValue = -32767.f ;
	float M_S(Time, sps10) ;
		M_S:long_name = "WIND VECTOR VERTICAL GUST COMP (H) (M/S) WI" ;
		M_S:units = "unk" ;
		M_S:actual_range = -5.662003f, 8.075996f ;
		M_S:SampledRate = 10 ;
		M_S:_FillValue = -32767.f ;
	float M_S-1(Time, sps10) ;
		M_S-1:long_name = "WIND VECTOR LNGTDNL GUST COMPONENT (M/S) UX" ;
		M_S-1:units = "unk" ;
		M_S-1:actual_range = -11.554f, 17.045f ;
		M_S-1:SampledRate = 10 ;
		M_S-1:_FillValue = -32767.f ;
	float M_S-1-1(Time, sps10) ;
		M_S-1-1:long_name = "WIND VECTOR LATERAL GUST COMPONENT (M/S) VY" ;
		M_S-1-1:units = "unk" ;
		M_S-1-1:actual_range = -12.75999f, 11.83701f ;
		M_S-1-1:SampledRate = 10 ;
		M_S-1-1:_FillValue = -32767.f ;
	float UI1(Time, sps10) ;
		UI1:long_name = "WIND VECTOR EAST COMPONENT (M/S)" ;
		UI1:units = "m/s" ;
		UI1:actual_range = -9.345993f, 16.05499f ;
		UI1:SampledRate = 10 ;
		UI1:_FillValue = -32767.f ;
	float VI1(Time, sps10) ;
		VI1:long_name = "WIND VECTOR NORTH COMPONENT (M/S)" ;
		VI1:units = "m/s" ;
		VI1:actual_range = -11.453f, 13.334f ;
		VI1:SampledRate = 10 ;
		VI1:_FillValue = -32767.f ;
	float UX1(Time, sps10) ;
		UX1:long_name = "WIND VECTOR LNGTDNL COMPONENT (M/S)" ;
		UX1:units = "m/s" ;
		UX1:actual_range = -10.45799f, 15.57899f ;
		UX1:SampledRate = 10 ;
		UX1:_FillValue = -32767.f ;
	float VY1(Time, sps10) ;
		VY1:long_name = "WIND VECTOR LATERAL COMPONENT (M/S)" ;
		VY1:units = "m/s" ;
		VY1:actual_range = -13.214f, 13.644f ;
		VY1:SampledRate = 10 ;
		VY1:_FillValue = -32767.f ;
	float LAT(Time, sps10) ;
		LAT:long_name = "RAW INS LATITUDE (DEG)" ;
		LAT:units = "degree_N" ;
		LAT:Category = "Position" ;
		LAT:standard_name = "latitude" ;
		LAT:valid_range = -90.f, 90.f ;
		LAT:actual_range = 39.65199f, 40.70799f ;
		LAT:SampledRate = 10 ;
		LAT:_FillValue = -32767.f ;
	float LON(Time, sps10) ;
		LON:long_name = "RAW INS LONGITUDE (DEG)" ;
		LON:units = "degree_E" ;
		LON:Category = "Position" ;
		LON:standard_name = "longitude" ;
		LON:valid_range = -180.f, 180.f ;
		LON:actual_range = -107.426f, -104.643f ;
		LON:SampledRate = 10 ;
		LON:_FillValue = -32767.f ;
	float HP(Time, sps10) ;
		HP:long_name = "NACA PRESSURE ALTITUDE (M)" ;
		HP:units = "m" ;
		HP:actual_range = 1676.9f, 4969.6f ;
		HP:SampledRate = 10 ;
		HP:_FillValue = -32767.f ;
	float HI3(Time, sps10) ;
		HI3:long_name = "PRESSURE-DAMPED INERTIAL ALTITUDE (M)" ;
		HI3:units = "m" ;
		HI3:actual_range = 1677.5f, 4957.5f ;
		HI3:SampledRate = 10 ;
		HI3:_FillValue = -32767.f ;
	float HGM(Time, sps10) ;
		HGM:long_name = "GEOMETRIC (RADIO) ALTITUDE (M)" ;
		HGM:units = "m" ;
		HGM:actual_range = -14.298f, 768.009f ;
		HGM:SampledRate = 10 ;
		HGM:_FillValue = -32767.f ;
	float GSF(Time, sps10) ;
		GSF:long_name = "RAW INS GROUND SPEED (M/S)" ;
		GSF:units = "m/s" ;
		GSF:actual_range = 23.171f, 97.48801f ;
		GSF:SampledRate = 10 ;
		GSF:_FillValue = -32767.f ;
	float VEW(Time, sps10) ;
		VEW:long_name = "RAW INS GROUND SPD EAST COMP (M/S)" ;
		VEW:units = "m/s" ;
		VEW:actual_range = -97.04901f, 93.15997f ;
		VEW:SampledRate = 10 ;
		VEW:_FillValue = -32767.f ;
	float VNS(Time, sps10) ;
		VNS:long_name = "RAW INS GROUND SPD NORTH COMP (M/S)" ;
		VNS:units = "m/s" ;
		VNS:actual_range = -93.79599f, 83.20203f ;
		VNS:SampledRate = 10 ;
		VNS:_FillValue = -32767.f ;
	float WP3(Time, sps10) ;
		WP3:long_name = "DAMPED AIRCRAFT VERT VELOCITY (M/S)" ;
		WP3:units = "m/s" ;
		WP3:actual_range = -13.854f, 15.486f ;
		WP3:SampledRate = 10 ;
		WP3:_FillValue = -32767.f ;
	float CGAC(Time, sps10) ;
		CGAC:long_name = "AIRCRAFT C.G. ACCELERATION (M/S2)" ;
		CGAC:units = "m/s2" ;
		CGAC:actual_range = -5.641998f, 7.859001f ;
		CGAC:SampledRate = 10 ;
		CGAC:_FillValue = -32767.f ;
	float THF(Time, sps10) ;
		THF:long_name = "AIRCRAFT TRUE HEADING (YAW) (DEG)" ;
		THF:units = "degree" ;
		THF:actual_range = 0.0009994507f, 359.998f ;
		THF:SampledRate = 10 ;
		THF:_FillValue = -32767.f ;
	float ROLL(Time, sps10) ;
		ROLL:long_name = "AIRCRAFT ROLL ATTITUDE ANGLE (DEG)" ;
		ROLL:units = "degree" ;
		ROLL:actual_range = -42.341f, 31.258f ;
		ROLL:SampledRate = 10 ;
		ROLL:_FillValue = -32767.f ;
	float PITCH(Time, sps10) ;
		PITCH:long_name = "AIRCRAFT PITCH ATTITUDE ANGLE (DEG)" ;
		PITCH:units = "degree" ;
		PITCH:actual_range = -8.606003f, 19.649f ;
		PITCH:SampledRate = 10 ;
		PITCH:_FillValue = -32767.f ;
	float TASW(Time, sps10) ;
		TASW:long_name = "AIRCRAFT TRUE AIRSPEED (WING) (M/S)" ;
		TASW:units = "m/s" ;
		TASW:actual_range = 30.401f, 97.517f ;
		TASW:SampledRate = 10 ;
		TASW:_FillValue = -32767.f ;
	float TASG(Time, sps10) ;
		TASG:long_name = "AIRCRAFT TRUE AIRSPEED(GUST PROBE) (M/S)" ;
		TASG:units = "m/s" ;
		TASG:actual_range = 24.997f, 97.315f ;
		TASG:SampledRate = 10 ;
		TASG:_FillValue = -32767.f ;
	float LWCC(Time, sps10) ;
		LWCC:long_name = "CORRCTD J-W LIQUID WATER CONTENT (G/M3)" ;
		LWCC:units = "gram/m3" ;
		LWCC:actual_range = -0.3099976f, 0.8389969f ;
		LWCC:SampledRate = 10 ;
		LWCC:_FillValue = -32767.f ;
	float DEI(Time, sps10) ;
		DEI:long_name = "DISTANCE EAST OF START  (KM)" ;
		DEI:units = "km" ;
		DEI:actual_range = -196.17f, 40.30005f ;
		DEI:SampledRate = 10 ;
		DEI:_FillValue = -32767.f ;
	float DNI(Time, sps10) ;
		DNI:long_name = "DISTANCE NORTH OF START  (KM)" ;
		DNI:units = "km" ;
		DNI:actual_range = -29.46002f, 88.07996f ;
		DNI:SampledRate = 10 ;
		DNI:_FillValue = -32767.f ;
	float TTW(Time, sps10) ;
		TTW:long_name = "TOTAL TEMPERATURE (WING ROSEMOUNT) (C)" ;
		TTW:units = "deg_C" ;
		TTW:actual_range = -17.707f, 10.167f ;
		TTW:SampledRate = 10 ;
		TTW:_FillValue = -32767.f ;
	float TTRF(Time, sps10) ;
		TTRF:long_name = "TOTAL TEMPERATURE (REVERSE FLOW) (C)" ;
		TTRF:units = "DEG C" ;
		TTRF:actual_range = -18.091f, 8.094002f ;
		TTRF:SampledRate = 10 ;
		TTRF:_FillValue = -32767.f ;
	float DP(Time, sps10) ;
		DP:long_name = "DEW/FROSTPOINT TEMP (THERMOELEC) (C)" ;
		DP:units = "DEG C" ;
		DP:actual_range = -32.512f, -0.6240005f ;
		DP:SampledRate = 10 ;
		DP:_FillValue = -32767.f ;
	float QCW(Time, sps10) ;
		QCW:long_name = "RAW DYNAMIC PRESSURE (WING) (MB)" ;
		QCW:units = "hPa" ;
		QCW:actual_range = 3.555f, 47.685f ;
		QCW:SampledRate = 10 ;
		QCW:_FillValue = -32767.f ;
	float QCG(Time, sps10) ;
		QCG:long_name = "RAW DYNAMIC PRESSURE (GUST PROBE) (MB)" ;
		QCG:units = "hPa" ;
		QCG:actual_range = 3.200996f, 43.771f ;
		QCG:SampledRate = 10 ;
		QCG:_FillValue = -32767.f ;
	float PSF(Time, sps10) ;
		PSF:long_name = "RAW STATIC PRESSURE (FUSELAGE) (MB)" ;
		PSF:units = "hPa" ;
		PSF:actual_range = 542.937f, 828.504f ;
		PSF:SampledRate = 10 ;
		PSF:_FillValue = -32767.f ;
	float PSB(Time, sps10) ;
		PSB:long_name = "RAW STATIC PRESSURE (BOOM) (MB)" ;
		PSB:units = "hPa" ;
		PSB:actual_range = 544.517f, 828.544f ;
		PSB:SampledRate = 10 ;
		PSB:_FillValue = -32767.f ;
	float ALPHA(Time, sps10) ;
		ALPHA:long_name = "INS WANDER ANGLE (DEG)" ;
		ALPHA:units = "degree" ;
		ALPHA:actual_range = 209.603f, 211.398f ;
		ALPHA:SampledRate = 10 ;
		ALPHA:_FillValue = -32767.f ;
	float THI(Time, sps10) ;
		THI:long_name = "AIRCRAFT TRUE HEADING (ARINC) (DEG)" ;
		THI:units = "degree" ;
		THI:actual_range = 0.003997803f, 360.f ;
		THI:SampledRate = 10 ;
		THI:_FillValue = -32767.f ;
	float XVI(Time, sps10) ;
		XVI:long_name = "RAW INS GROUND SPD X COMPONENT (M/S)" ;
		XVI:units = "m/s" ;
		XVI:actual_range = -94.22299f, 88.24103f ;
		XVI:SampledRate = 10 ;
		XVI:_FillValue = -32767.f ;
	float YVI(Time, sps10) ;
		YVI:long_name = "RAW INS GROUND SPD Y COMPONENT (M/S)" ;
		YVI:units = "m/s" ;
		YVI:actual_range = -87.55499f, 91.93701f ;
		YVI:SampledRate = 10 ;
		YVI:_FillValue = -32767.f ;
	float VZI(Time, sps10) ;
		VZI:long_name = "RAW INS VERTICAL VELOCITY (M/S)" ;
		VZI:units = "m/s" ;
		VZI:actual_range = -71.888f, 9.217987f ;
		VZI:SampledRate = 10 ;
		VZI:_FillValue = -32767.f ;
	float ADIF(Time, sps10) ;
		ADIF:long_name = "VERTICAL DIFF. PRESR (GUST PROBE) (MB)" ;
		ADIF:units = "hPa" ;
		ADIF:actual_range = -5.207001f, 13.088f ;
		ADIF:SampledRate = 10 ;
		ADIF:_FillValue = -32767.f ;
	float BDIF(Time, sps10) ;
		BDIF:long_name = "HORIZONTAL DIFF. PRESR (GUST PROBE) (MB)" ;
		BDIF:units = "hPa" ;
		BDIF:actual_range = -11.062f, 13.247f ;
		BDIF:SampledRate = 10 ;
		BDIF:_FillValue = -32767.f ;
	float ATTACK(Time, sps10) ;
		ATTACK:long_name = "ANGLE OF ATTACK       (DEG)" ;
		ATTACK:units = "degree" ;
		ATTACK:actual_range = -2.949997f, 7.389f ;
		ATTACK:SampledRate = 10 ;
		ATTACK:_FillValue = -32767.f ;
	float SSLIP(Time, sps10) ;
		SSLIP:long_name = "ANGLE OF SIDESLIP       (DEG)" ;
		SSLIP:units = "degree" ;
		SSLIP:actual_range = -5.126999f, 13.286f ;
		SSLIP:SampledRate = 10 ;
		SSLIP:_FillValue = -32767.f ;
	float LWC(Time, sps10) ;
		LWC:long_name = "RAW J-W LIQUID WATER CONTENT (G/M3)" ;
		LWC:units = "gram/m3" ;
		LWC:actual_range = -0.2610016f, 0.6220016f ;
		LWC:SampledRate = 10 ;
		LWC:_FillValue = -32767.f ;
	float CAMRAW(Time, sps10) ;
		CAMRAW:long_name = "CANNON CAMERA EVENT (FRAME) VOLTAGE" ;
		CAMRAW:units = "Vdc" ;
		CAMRAW:actual_range = -0.1439972f, 4.406998f ;
		CAMRAW:SampledRate = 10 ;
		CAMRAW:_FillValue = -32767.f ;
	float CFRCNT(Time, sps10) ;
		CFRCNT:long_name = "CANNON CAMERA FRAME COUNT" ;
		CFRCNT:units = "unk" ;
		CFRCNT:actual_range = 0.f, 948.f ;
		CFRCNT:SampledRate = 10 ;
		CFRCNT:_FillValue = -32767.f ;
	float TMTR(Time) ;
		TMTR:long_name = "PILOT MICROPHONE SWITCH (TMTR)" ;
		TMTR:units = "Vdc" ;
		TMTR:actual_range = -1.123001f, 9.469002f ;
		TMTR:SampledRate = 1 ;
		TMTR:_FillValue = -32767.f ;
	float TISV(Time) ;
		TISV:long_name = "INLET TEMPERATURE SIGNAL (VOLTS)" ;
		TISV:units = "VOLTS" ;
		TISV:actual_range = -2.711998f, -2.217003f ;
		TISV:SampledRate = 1 ;
		TISV:_FillValue = -32767.f ;
	float RICC(Time) ;
		RICC:long_name = "ICE CRYSTAL COUNTS      (CNTS)" ;
		RICC:units = "CNTS" ;
		RICC:actual_range = 0.f, 65535.f ;
		RICC:SampledRate = 1 ;
		RICC:_FillValue = -32767.f ;
	float ADJIN(Time) ;
		ADJIN:long_name = "ADJUSTED ICE NUCLEUS CONC. (N/LITER)" ;
		ADJIN:units = "N/LITER" ;
		ADJIN:actual_range = 0.f, 10485.75f ;
		ADJIN:SampledRate = 1 ;
		ADJIN:_FillValue = -32767.f ;
	float FSSP(Time) ;
		FSSP:long_name = "FSSP PROBE RANGE (0-3)" ;
		FSSP:units = "RANGE" ;
		FSSP:actual_range = 0.f, 0.f ;
		FSSP:SampledRate = 1 ;
		FSSP:_FillValue = -32767.f ;
	float IDPR1(Time) ;
		IDPR1:long_name = "PROBE 1 IS THE FSSP (MULTIPLE RANGE)" ;
		IDPR1:units = "FSSP" ;
		IDPR1:actual_range = 0.f, 0.f ;
		IDPR1:SampledRate = 1 ;
		IDPR1:_FillValue = -32767.f ;
	float SUM1_1(Time) ;
		SUM1_1:long_name = "PROBE 1/CELL 1    ACCUMULATION (COUNTS)" ;
		SUM1_1:units = "COUNTS" ;
		SUM1_1:actual_range = 0.f, 65535.f ;
		SUM1_1:SampledRate = 1 ;
		SUM1_1:_FillValue = -32767.f ;
	float SUM1_2(Time) ;
		SUM1_2:long_name = "PROBE 1/CELL 2    ACCUMULATION (COUNTS)" ;
		SUM1_2:units = "COUNTS" ;
		SUM1_2:actual_range = 0.f, 65535.f ;
		SUM1_2:SampledRate = 1 ;
		SUM1_2:_FillValue = -32767.f ;
	float SUM1_3(Time) ;
		SUM1_3:long_name = "PROBE 1/CELL 3    ACCUMULATION (COUNTS)" ;
		SUM1_3:units = "COUNTS" ;
		SUM1_3:actual_range = 0.f, 65535.f ;
		SUM1_3:SampledRate = 1 ;
		SUM1_3:_FillValue = -32767.f ;
	float SUM1_4(Time) ;
		SUM1_4:long_name = "PROBE 1/CELL 4    ACCUMULATION (COUNTS)" ;
		SUM1_4:units = "COUNTS" ;
		SUM1_4:actual_range = 0.f, 65535.f ;
		SUM1_4:SampledRate = 1 ;
		SUM1_4:_FillValue = -32767.f ;
	float SUM1_5(Time) ;
		SUM1_5:long_name = "PROBE 1/CELL 5    ACCUMULATION (COUNTS)" ;
		SUM1_5:units = "COUNTS" ;
		SUM1_5:actual_range = 0.f, 65535.f ;
		SUM1_5:SampledRate = 1 ;
		SUM1_5:_FillValue = -32767.f ;
	float SUM1_6(Time) ;
		SUM1_6:long_name = "PROBE 1/CELL 6    ACCUMULATION (COUNTS)" ;
		SUM1_6:units = "COUNTS" ;
		SUM1_6:actual_range = 0.f, 65535.f ;
		SUM1_6:SampledRate = 1 ;
		SUM1_6:_FillValue = -32767.f ;
	float SUM1_7(Time) ;
		SUM1_7:long_name = "PROBE 1/CELL 7    ACCUMULATION (COUNTS)" ;
		SUM1_7:units = "COUNTS" ;
		SUM1_7:actual_range = 0.f, 65535.f ;
		SUM1_7:SampledRate = 1 ;
		SUM1_7:_FillValue = -32767.f ;
	float SUM1_8(Time) ;
		SUM1_8:long_name = "PROBE 1/CELL 8    ACCUMULATION (COUNTS)" ;
		SUM1_8:units = "COUNTS" ;
		SUM1_8:actual_range = 0.f, 65535.f ;
		SUM1_8:SampledRate = 1 ;
		SUM1_8:_FillValue = -32767.f ;
	float SUM1_9(Time) ;
		SUM1_9:long_name = "PROBE 1/CELL 9    ACCUMULATION (COUNTS)" ;
		SUM1_9:units = "COUNTS" ;
		SUM1_9:actual_range = 0.f, 65535.f ;
		SUM1_9:SampledRate = 1 ;
		SUM1_9:_FillValue = -32767.f ;
	float SUM1_10(Time) ;
		SUM1_10:long_name = "PROBE 1/CELL10    ACCUMULATION (COUNTS)" ;
		SUM1_10:units = "COUNTS" ;
		SUM1_10:actual_range = 0.f, 65535.f ;
		SUM1_10:SampledRate = 1 ;
		SUM1_10:_FillValue = -32767.f ;
	float SUM1_11(Time) ;
		SUM1_11:long_name = "PROBE 1/CELL11    ACCUMULATION (COUNTS)" ;
		SUM1_11:units = "COUNTS" ;
		SUM1_11:actual_range = 0.f, 65535.f ;
		SUM1_11:SampledRate = 1 ;
		SUM1_11:_FillValue = -32767.f ;
	float SUM1_12(Time) ;
		SUM1_12:long_name = "PROBE 1/CELL12    ACCUMULATION (COUNTS)" ;
		SUM1_12:units = "COUNTS" ;
		SUM1_12:actual_range = 0.f, 65535.f ;
		SUM1_12:SampledRate = 1 ;
		SUM1_12:_FillValue = -32767.f ;
	float SUM1_13(Time) ;
		SUM1_13:long_name = "PROBE 1/CELL13    ACCUMULATION (COUNTS)" ;
		SUM1_13:units = "COUNTS" ;
		SUM1_13:actual_range = 0.f, 65535.f ;
		SUM1_13:SampledRate = 1 ;
		SUM1_13:_FillValue = -32767.f ;
	float SUM1_14(Time) ;
		SUM1_14:long_name = "PROBE 1/CELL14    ACCUMULATION (COUNTS)" ;
		SUM1_14:units = "COUNTS" ;
		SUM1_14:actual_range = 0.f, 65535.f ;
		SUM1_14:SampledRate = 1 ;
		SUM1_14:_FillValue = -32767.f ;
	float SUM1_15(Time) ;
		SUM1_15:long_name = "PROBE 1/CELL15    ACCUMULATION (COUNTS)" ;
		SUM1_15:units = "COUNTS" ;
		SUM1_15:actual_range = 0.f, 65535.f ;
		SUM1_15:SampledRate = 1 ;
		SUM1_15:_FillValue = -32767.f ;
	float CON1_1(Time) ;
		CON1_1:long_name = "PROBE 1/CELL 1    CONCENTRATION (CTS/CC)" ;
		CON1_1:units = "1/cm3" ;
		CON1_1:actual_range = 0.f, 4.795f ;
		CON1_1:SampledRate = 1 ;
		CON1_1:_FillValue = -32767.f ;
	float CON1_2(Time) ;
		CON1_2:long_name = "PROBE 1/CELL 2    CONCENTRATION (CTS/CC)" ;
		CON1_2:units = "1/cm3" ;
		CON1_2:actual_range = 0.f, 4.795f ;
		CON1_2:SampledRate = 1 ;
		CON1_2:_FillValue = -32767.f ;
	float CON1_3(Time) ;
		CON1_3:long_name = "PROBE 1/CELL 3    CONCENTRATION (CTS/CC)" ;
		CON1_3:units = "1/cm3" ;
		CON1_3:actual_range = 0.f, 4.795f ;
		CON1_3:SampledRate = 1 ;
		CON1_3:_FillValue = -32767.f ;
	float CON1_4(Time) ;
		CON1_4:long_name = "PROBE 1/CELL 4    CONCENTRATION (CTS/CC)" ;
		CON1_4:units = "1/cm3" ;
		CON1_4:actual_range = 0.f, 4.795f ;
		CON1_4:SampledRate = 1 ;
		CON1_4:_FillValue = -32767.f ;
	float CON1_5(Time) ;
		CON1_5:long_name = "PROBE 1/CELL 5    CONCENTRATION (CTS/CC)" ;
		CON1_5:units = "1/cm3" ;
		CON1_5:actual_range = 0.f, 4.795f ;
		CON1_5:SampledRate = 1 ;
		CON1_5:_FillValue = -32767.f ;
	float CON1_6(Time) ;
		CON1_6:long_name = "PROBE 1/CELL 6    CONCENTRATION (CTS/CC)" ;
		CON1_6:units = "1/cm3" ;
		CON1_6:actual_range = 0.f, 4.795f ;
		CON1_6:SampledRate = 1 ;
		CON1_6:_FillValue = -32767.f ;
	float CON1_7(Time) ;
		CON1_7:long_name = "PROBE 1/CELL 7    CONCENTRATION (CTS/CC)" ;
		CON1_7:units = "1/cm3" ;
		CON1_7:actual_range = 0.f, 4.795f ;
		CON1_7:SampledRate = 1 ;
		CON1_7:_FillValue = -32767.f ;
	float CON1_8(Time) ;
		CON1_8:long_name = "PROBE 1/CELL 8    CONCENTRATION (CTS/CC)" ;
		CON1_8:units = "1/cm3" ;
		CON1_8:actual_range = 0.f, 4.795f ;
		CON1_8:SampledRate = 1 ;
		CON1_8:_FillValue = -32767.f ;
	float CON1_9(Time) ;
		CON1_9:long_name = "PROBE 1/CELL 9    CONCENTRATION (CTS/CC)" ;
		CON1_9:units = "1/cm3" ;
		CON1_9:actual_range = 0.f, 4.795f ;
		CON1_9:SampledRate = 1 ;
		CON1_9:_FillValue = -32767.f ;
	float CON1_10(Time) ;
		CON1_10:long_name = "PROBE 1/CELL10    CONCENTRATION (CTS/CC)" ;
		CON1_10:units = "1/cm3" ;
		CON1_10:actual_range = 0.f, 4.795f ;
		CON1_10:SampledRate = 1 ;
		CON1_10:_FillValue = -32767.f ;
	float CON1_11(Time) ;
		CON1_11:long_name = "PROBE 1/CELL11    CONCENTRATION (CTS/CC)" ;
		CON1_11:units = "1/cm3" ;
		CON1_11:actual_range = 0.f, 4.795f ;
		CON1_11:SampledRate = 1 ;
		CON1_11:_FillValue = -32767.f ;
	float CON1_12(Time) ;
		CON1_12:long_name = "PROBE 1/CELL12    CONCENTRATION (CTS/CC)" ;
		CON1_12:units = "1/cm3" ;
		CON1_12:actual_range = 0.f, 4.795f ;
		CON1_12:SampledRate = 1 ;
		CON1_12:_FillValue = -32767.f ;
	float CON1_13(Time) ;
		CON1_13:long_name = "PROBE 1/CELL13    CONCENTRATION (CTS/CC)" ;
		CON1_13:units = "1/cm3" ;
		CON1_13:actual_range = 0.f, 4.795f ;
		CON1_13:SampledRate = 1 ;
		CON1_13:_FillValue = -32767.f ;
	float CON1_14(Time) ;
		CON1_14:long_name = "PROBE 1/CELL14    CONCENTRATION (CTS/CC)" ;
		CON1_14:units = "1/cm3" ;
		CON1_14:actual_range = 0.f, 4.795f ;
		CON1_14:SampledRate = 1 ;
		CON1_14:_FillValue = -32767.f ;
	float CON1_15(Time) ;
		CON1_15:long_name = "PROBE 1/CELL15    CONCENTRATION (CTS/CC)" ;
		CON1_15:units = "1/cm3" ;
		CON1_15:actual_range = 0.f, 4.795f ;
		CON1_15:SampledRate = 1 ;
		CON1_15:_FillValue = -32767.f ;
	float IDPR2(Time) ;
		IDPR2:long_name = "PROBE 2 IS THE OAP 200X" ;
		IDPR2:units = "OAP200X" ;
		IDPR2:actual_range = 0.f, 0.f ;
		IDPR2:SampledRate = 1 ;
		IDPR2:_FillValue = -32767.f ;
	float SUM2_1(Time) ;
		SUM2_1:long_name = "PROBE 2/CELL 1    ACCUMULATION (COUNTS)" ;
		SUM2_1:units = "COUNTS" ;
		SUM2_1:actual_range = 0.f, 65535.f ;
		SUM2_1:SampledRate = 1 ;
		SUM2_1:_FillValue = -32767.f ;
	float SUM2_2(Time) ;
		SUM2_2:long_name = "PROBE 2/CELL 2    ACCUMULATION (COUNTS)" ;
		SUM2_2:units = "COUNTS" ;
		SUM2_2:actual_range = 0.f, 65535.f ;
		SUM2_2:SampledRate = 1 ;
		SUM2_2:_FillValue = -32767.f ;
	float SUM2_3(Time) ;
		SUM2_3:long_name = "PROBE 2/CELL 3    ACCUMULATION (COUNTS)" ;
		SUM2_3:units = "COUNTS" ;
		SUM2_3:actual_range = 0.f, 65535.f ;
		SUM2_3:SampledRate = 1 ;
		SUM2_3:_FillValue = -32767.f ;
	float SUM2_4(Time) ;
		SUM2_4:long_name = "PROBE 2/CELL 4    ACCUMULATION (COUNTS)" ;
		SUM2_4:units = "COUNTS" ;
		SUM2_4:actual_range = 0.f, 65535.f ;
		SUM2_4:SampledRate = 1 ;
		SUM2_4:_FillValue = -32767.f ;
	float SUM2_5(Time) ;
		SUM2_5:long_name = "PROBE 2/CELL 5    ACCUMULATION (COUNTS)" ;
		SUM2_5:units = "COUNTS" ;
		SUM2_5:actual_range = 0.f, 65535.f ;
		SUM2_5:SampledRate = 1 ;
		SUM2_5:_FillValue = -32767.f ;
	float SUM2_6(Time) ;
		SUM2_6:long_name = "PROBE 2/CELL 6    ACCUMULATION (COUNTS)" ;
		SUM2_6:units = "COUNTS" ;
		SUM2_6:actual_range = 0.f, 65535.f ;
		SUM2_6:SampledRate = 1 ;
		SUM2_6:_FillValue = -32767.f ;
	float SUM2_8(Time) ;
		SUM2_8:long_name = "PROBE 2/CELL 8    ACCUMULATION (COUNTS)" ;
		SUM2_8:units = "COUNTS" ;
		SUM2_8:actual_range = 0.f, 65535.f ;
		SUM2_8:SampledRate = 1 ;
		SUM2_8:_FillValue = -32767.f ;
	float SUM2_9(Time) ;
		SUM2_9:long_name = "PROBE 2/CELL 9    ACCUMULATION (COUNTS)" ;
		SUM2_9:units = "COUNTS" ;
		SUM2_9:actual_range = 0.f, 65535.f ;
		SUM2_9:SampledRate = 1 ;
		SUM2_9:_FillValue = -32767.f ;
	float SUM2_10(Time) ;
		SUM2_10:long_name = "PROBE 2/CELL10    ACCUMULATION (COUNTS)" ;
		SUM2_10:units = "COUNTS" ;
		SUM2_10:actual_range = 0.f, 65535.f ;
		SUM2_10:SampledRate = 1 ;
		SUM2_10:_FillValue = -32767.f ;
	float SUM2_11(Time) ;
		SUM2_11:long_name = "PROBE 2/CELL11    ACCUMULATION (COUNTS)" ;
		SUM2_11:units = "COUNTS" ;
		SUM2_11:actual_range = 0.f, 65535.f ;
		SUM2_11:SampledRate = 1 ;
		SUM2_11:_FillValue = -32767.f ;
	float SUM2_12(Time) ;
		SUM2_12:long_name = "PROBE 2/CELL12    ACCUMULATION (COUNTS)" ;
		SUM2_12:units = "COUNTS" ;
		SUM2_12:actual_range = 0.f, 65535.f ;
		SUM2_12:SampledRate = 1 ;
		SUM2_12:_FillValue = -32767.f ;
	float SUM2_13(Time) ;
		SUM2_13:long_name = "PROBE 2/CELL13    ACCUMULATION (COUNTS)" ;
		SUM2_13:units = "COUNTS" ;
		SUM2_13:actual_range = 0.f, 65535.f ;
		SUM2_13:SampledRate = 1 ;
		SUM2_13:_FillValue = -32767.f ;
	float SUM2_14(Time) ;
		SUM2_14:long_name = "PROBE 2/CELL14    ACCUMULATION (COUNTS)" ;
		SUM2_14:units = "COUNTS" ;
		SUM2_14:actual_range = 0.f, 65535.f ;
		SUM2_14:SampledRate = 1 ;
		SUM2_14:_FillValue = -32767.f ;
	float SUM2_15(Time) ;
		SUM2_15:long_name = "PROBE 2/CELL15    ACCUMULATION (COUNTS)" ;
		SUM2_15:units = "COUNTS" ;
		SUM2_15:actual_range = 0.f, 65535.f ;
		SUM2_15:SampledRate = 1 ;
		SUM2_15:_FillValue = -32767.f ;
	float CON2_1(Time) ;
		CON2_1:long_name = "PROBE 2/CELL 1    CONCENTRATION (CTS/CC)" ;
		CON2_1:units = "1/cm3" ;
		CON2_1:actual_range = 0.f, 14.f ;
		CON2_1:SampledRate = 1 ;
		CON2_1:_FillValue = -32767.f ;
	float CON2_2(Time) ;
		CON2_2:long_name = "PROBE 2/CELL 2    CONCENTRATION (CTS/CC)" ;
		CON2_2:units = "1/cm3" ;
		CON2_2:actual_range = 0.f, 23.80968f ;
		CON2_2:SampledRate = 1 ;
		CON2_2:_FillValue = -32767.f ;
	float CON2_3(Time) ;
		CON2_3:long_name = "PROBE 2/CELL 3    CONCENTRATION (CTS/CC)" ;
		CON2_3:units = "1/cm3" ;
		CON2_3:actual_range = 0.f, 8.533653f ;
		CON2_3:SampledRate = 1 ;
		CON2_3:_FillValue = -32767.f ;
	float CON2_4(Time) ;
		CON2_4:long_name = "PROBE 2/CELL 4    CONCENTRATION (CTS/CC)" ;
		CON2_4:units = "1/cm3" ;
		CON2_4:actual_range = 0.f, 4.80578f ;
		CON2_4:SampledRate = 1 ;
		CON2_4:_FillValue = -32767.f ;
	float CON2_5(Time) ;
		CON2_5:long_name = "PROBE 2/CELL 5    CONCENTRATION (CTS/CC)" ;
		CON2_5:units = "1/cm3" ;
		CON2_5:actual_range = 0.f, 3.457446f ;
		CON2_5:SampledRate = 1 ;
		CON2_5:_FillValue = -32767.f ;
	float CON2_6(Time) ;
		CON2_6:long_name = "PROBE 2/CELL 6    CONCENTRATION (CTS/CC)" ;
		CON2_6:units = "1/cm3" ;
		CON2_6:actual_range = 0.f, 2.727673f ;
		CON2_6:SampledRate = 1 ;
		CON2_6:_FillValue = -32767.f ;
	float CON2_7(Time) ;
		CON2_7:long_name = "PROBE 2/CELL 7    CONCENTRATION (CTS/CC)" ;
		CON2_7:units = "1/cm3" ;
		CON2_7:actual_range = 0.f, 2.288229f ;
		CON2_7:SampledRate = 1 ;
		CON2_7:_FillValue = -32767.f ;
	float CON2_8(Time) ;
		CON2_8:long_name = "PROBE 2/CELL 8    CONCENTRATION (CTS/CC)" ;
		CON2_8:units = "1/cm3" ;
		CON2_8:actual_range = 0.f, 2.169417f ;
		CON2_8:SampledRate = 1 ;
		CON2_8:_FillValue = -32767.f ;
	float CON2_9(Time) ;
		CON2_9:long_name = "PROBE 2/CELL 9    CONCENTRATION (CTS/CC)" ;
		CON2_9:units = "1/cm3" ;
		CON2_9:actual_range = 0.f, 2.414341f ;
		CON2_9:SampledRate = 1 ;
		CON2_9:_FillValue = -32767.f ;
	float CON2_10(Time) ;
		CON2_10:long_name = "PROBE 2/CELL10    CONCENTRATION (CTS/CC)" ;
		CON2_10:units = "1/cm3" ;
		CON2_10:actual_range = 0.f, 3.024002f ;
		CON2_10:SampledRate = 1 ;
		CON2_10:_FillValue = -32767.f ;
	float CON2_11(Time) ;
		CON2_11:long_name = "PROBE 2/CELL11    CONCENTRATION (CTS/CC)" ;
		CON2_11:units = "1/cm3" ;
		CON2_11:actual_range = 0.f, 3.991699f ;
		CON2_11:SampledRate = 1 ;
		CON2_11:_FillValue = -32767.f ;
	float CON2_12(Time) ;
		CON2_12:long_name = "PROBE 2/CELL12    CONCENTRATION (CTS/CC)" ;
		CON2_12:units = "1/cm3" ;
		CON2_12:actual_range = 0.f, 5.074207f ;
		CON2_12:SampledRate = 1 ;
		CON2_12:_FillValue = -32767.f ;
	float CON2_13(Time) ;
		CON2_13:long_name = "PROBE 2/CELL13    CONCENTRATION (CTS/CC)" ;
		CON2_13:units = "1/cm3" ;
		CON2_13:actual_range = 0.f, 7.676368f ;
		CON2_13:SampledRate = 1 ;
		CON2_13:_FillValue = -32767.f ;
	float CON2_14(Time) ;
		CON2_14:long_name = "PROBE 2/CELL14    CONCENTRATION (CTS/CC)" ;
		CON2_14:units = "1/cm3" ;
		CON2_14:actual_range = 0.f, 14.9689f ;
		CON2_14:SampledRate = 1 ;
		CON2_14:_FillValue = -32767.f ;
	float CON2_15(Time) ;
		CON2_15:long_name = "PROBE 2/CELL15    CONCENTRATION (CTS/CC)" ;
		CON2_15:units = "1/cm3" ;
		CON2_15:actual_range = 0.f, 0.f ;
		CON2_15:SampledRate = 1 ;
		CON2_15:_FillValue = -32767.f ;

// global attributes:
		:institution = "NCAR Research Aviation Facility" ;
		:Address = "P.O. Box 3000, Boulder, CO 80307-3000" ;
		:creator_url = "http://www.eol.ucar.edu" ;
		:Conventions = "NCAR-RAF/nimbus" ;
		:ConventionsURL = "http://www.eol.ucar.edu/raf/Software/netCDF.html" ;
		:ConventionsVersion = "1.3" ;
		:Metadata_Conventions = "Unidata Dataset Discovery v1.0" ;
		:standard_name_vocabulary = "CF-1.0" ;
		:time_coordinate = "Time" ;
		:Phone = "(303) 497-1030" ;
		:ProcessorURL = "https://github.com/ncareol/GENPRO" ;
		:ProcessorRevision = "8ff1ae2e-dirty" ;
		:Categories = "Position,Thermodynamic,Aircraft State,Atmos. State" ;
		:geospatial_vertical_positive = "up" ;
		:date_created = "2016-08-09T18:33:35 +0000" ;
		:Platform = "N306D" ;
		:wind_field = "WSPD WDRCTN" ;
		:time_coverage_start = "1978-02-07T10:47:20 +0000" ;
		:time_coverage_end = "1978-02-07T13:56:51 +0000" ;
		:TimeInterval = "10:47:20-13:56:51" ;
		:FlightDate = "02/07/1978" ;
		:geospatial_lat_min = 39.65199f ;
		:geospatial_lat_max = 40.70799f ;
		:latitude_coordinate = "LAT" ;
		:geospatial_lon_min = -107.426f ;
		:geospatial_lon_max = -104.643f ;
		:longitude_coordinate = "LON" ;
		:zaxis_coordinate = "HP" ;
		:geospatial_vertical_units = "m" ;
		:geospatial_vertical_min = 1676.9f ;
		:geospatial_vertical_max = 4969.6f ;
		:DESCRIPTION = "681-03 EAE-1 GRANT 07FEB78 10/38/30" ;
		:CYCLE_TIME = 1.f ;
		:FlightNumber = "RF03" ;
		:ProjectName = "Extended Area Effects" ;
		:converted_from = "G50036" ;
}

Publication or Paper Impact of DYNAMO Observations on NASA GEOS-5 Reanalyses and the Representation of MJO initiation

Flight Hours

Summary of project flight dates and hours flown

Images

Flight Plans

Initial estimates of individual flight profiles and durations

Airport designations

Designation	Airport	Time zone
PANC	ANCHORAGE, AK	UTC -9
PHNL	HONOLULU, HI	UTC -10
NSTU	PAGO PAGO, AS (US)	UTC-11
NZCH	CHRISTCHURCH, NZ	UTC+13
NTAA	TAHITI, SOCIETY ISLANDS, PF	UTC -10
SCIP	EASTER ISLAND, CL (CHILE)	UTC -6
MROC	SAN JOSE, COSTA RICA	UTC -6

Flight leg descriptions

LEG	Depart	Arrive	Time	Distance (NM)	Flight Level	Dips
1	KBJC	PANC	7+32	2098	FL280	10
1a	PANC	PANC	7+31	2260	FL280	9
2	PANC	PHNL	8+08	2414	FL270	12
3	PHNL	NSTU	7+10	2268	FL280	11
4	NSTU	NZCH	6+13	1950	FL280	10
4a	NZCH	NZCH	8+48	2821	FL270	6
5	NZCH	NTAA	7+28	2466	FL270	10
6	NTAA	SCIP	7+07	2293	FL270	12
7	SCIP	MROC	8+11	2669	FL270	11
8	MROC	KBJC	7+00	2113	FL280	12

ORCAS Presentations

NOTE: Password Required to Download Slides / Posters -- For access, please contact the Principal Investigators listed in the ORCAS Contacts Section below.

NSF NCAR EOL Seminar Series

Boulder, Colorado USA • February 2018

NSF NCAR EOL Seminar Series

Oceanography among the clouds and terrestrial ecology a thousand miles from land: The power of global-scale airborne observations
Video: Stephens

Over the past decade, measurements of atmospheric CO2, O2, and related tracers on a series of airborne research campaigns have enabled new insights into fundamental properties of the global carbon cycle.

Ocean Sciences Meeting

Portland, Oregon USA • 12 February 2018

BN14D: Multiscale Interdisciplinary Observations of Marine Ecosystems and the Biological Pump II Posters

BN14D-1057: High-resolution aircraft measurements of fluorescence and chlorophyll in the Southern Ocean, Oral Presentation

Christian Frankenberg

AI23A: Southern Ocean Air-Sea Exchange and Mixed-Layer Processes I

AI23A-01: Atmospheric Constraints on Southern Ocean Air-Sea CO2 Fluxes: Results from the ORCAS Campaign, Oral Presentation

Matthew C. Long

AMS Annual Meeting

Austin, Texas USA • 7 - 11 January 2018

20th Conference on Atmospheric Chemistry

11.4 Constraints on Southern Ocean CO2 Fluxes and Seasonality from Atmospheric Vertical Gradients Observed on Multiple Airborne Campaigns, Oral Presentation

Kathryn McKain

Fall AGU Meeting

New Orleans, Louisiana USA • 11 - 15 December 2017

A24C: Atmospheric Chemistry of the Southern Hemisphere I

Assessing the role of 'bottom-up' emissions and simplified chemical mechanisms in reconciling CESM2.0 with TOGA observations from the ORCAS and ATom-2 campaigns, Poster Presentation

Elizabeth Asher

A24C-07: The importance of the southern ocean on distributions and lifetimes of non-methane organic compounds, Oral Presentation

Eric Apel

A31L: Atmospheric Measurements with New Technology, Instrumentation, and Methods I

A31L-06: AutoGNI, the Robot Under the Aircraft Floor: An Automated System for Sampling Giant Aerosol Particles by Impaction in the Free Airstream Outside a Research Aircraft, Oral Presentation

Jorgen B. Jensen

A13K: Microphysical and Macroscopic Properties of Ice Clouds and Mixed-Phase Clouds and Interactions with Aerosols

A13K-04: Relationship between macroscopic and microphysical properties for mixed-phase and ice clouds over the Southern Ocean in ORCAS campaign, Oral Presentation

Minghui Diao

OCO-2 Science Team Meeting

NSF NCAR Boulder, Colorado USA • 25 - 27 October 2017

OCO-2 Science Team Meeting

OCO-2 v8 versus v7: Improvement in high-latitude retrievals
Oral Presentation: Chatterjee

Improvement in high -latitude retrievals on the ORCAS campaign

NOAA ESRL Global Monitoring Division Seminar

Boulder, Colorado USA • September 2017

NOAA ESRL Global Monitoring Division Seminar

Southern Ocean air-sea CO2 exchange inferred from airborne, shipboard, and surface station measurements of atmospheric O2 and CO2
Oral Presentation: Stephens

The seasonal exchange of CO2 with the Southern Ocean is driven by strong opposing thermal and biological forces. Climatological air-sea CO2 flux estimates based on temporally and spatially sparse pCO2 measurements in the region predict seasonal exchange in phase with biological forcing but relatively muted in amplitude. In contrast, many Earth system models predict large seasonal cycles in Southern Ocean air-sea CO2 flux, in phase with biological forcing in some models but with opposite phase in others. Because air-sea O2 exchanges are positively correlated for thermal and biological influences, and not affected by buffering chemistry, seasonal air-sea O2 fluxes are considerably larger than their CO2 counterparts. Consequently, atmospheric O2 gradients are relatively unaffected by remote terrestrial and fossil influences and O2 fluxes are more robustly constrained by atmospheric measurements. Estimates of air-sea O2 fluxes validated against atmospheric O2, combined with O2:CO2 ratios in observed atmospheric gradients, can be used to constrain the magnitude and drivers of seasonal CO2 fluxes.

19th WMO/IAEA Meeting on Carbon Dioxide, Other Greenhouse Gases, and Related Measurement Techniques (GGMT-2017)

Dubendorf, Switzerland • 27 – 31 August 2017

WMO/IAEA Meeting on Carbon Dioxide, Other Greenhouse Gases, and Related Measurement Techniques

Fractionation of O2/N2, Ar/N2, and CO2 at Aircraft Sampling Inlets, Britton Stephens
Powerpoint: Stephens_GGMT

Adaptation of a commercial greenhouse gas analyser for airborne measurements with expanded altitude range and application on the ORCAS and ATom campaigns, Kathryn McKain
[GGMT_McKain]

10th International Carbon Dioxide Conference

Interlaken, Switzerland • 21 - 25 August 2017

International Carbon Dioxide Conference

Atmospheric oxygen constraints on Southern Ocean air-sea CO2 flux seasonality, Britton Stephens, Matthew Long, Ralph Keeling, Colm Sweeney, Eric Kort, Eric Morgan, Jonathan Bent, Kathryn McKain, Sara Mikaloff-Fletcher, Prabir Patra
Powerpoint: Stephens_ICDC

"Tropospheric Gradients of CO2 Over the Southern Ocean," Eric Morgan, Britton Stephens, Kathryn McKain, Matthew Long, Jonathan Bent, Colm Sweeney, Ralph Keeling.
PDF: Morgan_ICDC

Earth System Research Laboratory

Global Monitoring Annual Conference • Boulder, CO • 23-24 May 2017

Global Monitoring Annual Conference

Vertical Gradients in Atmospheric CO2 as a Constraint on Southern Ocean Fluxes, Kathryn McKain (Cooperative Institute for Research in Environmental Sciences (CIRES), University of Colorado, Boulder, CO).
PDF: McKain PDF

NCAR Day of Networking and Discovery

Boulder, CO • 28 April 2017

NCAR Day of Networking and Discovery

Oxygen and Carbon above the Southern Ocean, Britton Stephens
Powerpoint: Stephens_NandD

NCAR Southern Ocean Workshop

Boulder, CO • 10 - 13 April 2017

NCAR Southern Ocean Workshop Presentations

Atmospheric oxygen constraints on Southern Ocean air-sea CO2 flux seasonality, Britton Stephens
Powerpoint: Stephens SO

Airborne constraints on Southern Ocean carbon and oxygen fluxes: implications for magnitude of exchange and the importance of intense, Eric Kort
Powerpoint: Kort SO

Atmospheric constraints on Southern Ocean carbon exchange, Andy Jacobson
Powerpoint: Jacobson SO

Southern Ocean Workshop Posters

"Flux estimates from Lagrangian Flights over Drake Passage and the Patagonian Shelf," Martin Hoecker-Martinez, Eric A. Kort, Matthew C. Long, Britton B. Stephens, Eric Apel, Colm Sweeney, Rebecca Hornbrook, Kathryn McKain, Alan Hills.

"Large-scale vertical gradients of atmospheric trace gases to constrain air-sea CO2 fluxes in the Southern Ocean," Kathryn McKain, Colm Sweeney, Matt Long, Britt Stephens, Elliot Atlas, Prabir Patra, David Munroe, Eric Kort, Ralph Keeling.