netcdf aircraft.P3.20180310.CRL {
dimensions:
	Charlength = 24 ;
	layers = 1365 ;
	Time = 6257 ;
variables:
	char ProductionDateTime(Charlength) ;
		ProductionDateTime:long_name = "Production  Date Time " ;
		ProductionDateTime:units = "A string in the form of \"YYYY-MM-DDTHH:MM:SS.SSSZ\" which describes the time at which this profile is produced (YYYY for year, MM for month, DD for day,HH for hour, MM for minute, SS.SSS for second)" ;
	short VersionID ;
		VersionID:long_name = "The version of the software which produced the data " ;
	float Lon(Time) ;
		Lon:long_name = "The longitude of Aircraft  " ;
		Lon:units = "degree, positive eastward" ;
	float Lat(Time) ;
		Lat:long_name = "The latitude of Aircraft  " ;
		Lat:units = "degree, positive northward" ;
	float Alt(Time) ;
		Alt:long_name = "The altitude of Aircraft   " ;
		Alt:units = "km (MSL)" ;
	float Pitch(Time) ;
		Pitch:long_name = "The pitch angle of Aircraft   " ;
		Pitch:units = "degree" ;
	float Roll(Time) ;
		Roll:long_name = "The roll angle of King Air   " ;
		Roll:units = "degree" ;
	float T_insitu(Time) ;
		T_insitu:long_name = " In situ  flight level temperature " ;
		T_insitu:units = "degree" ;
	float WVMR_insitu(Time) ;
		WVMR_insitu:long_name = " In situ  flight level water vapor mixing ratio " ;
		WVMR_insitu:units = "g/kg" ;
	float H(layers) ;
		H:long_name = "Bin height (MSL)" ;
		H:units = "km" ;
	float time(Time) ;
		time:long_name = "UTC time for each profile" ;
		time:units = "UTC hour" ;
	float LSR(Time, layers) ;
		LSR:long_name = "Aerosols or cloud lidar scattering ratio (LSR) profiles  " ;
		LSR:units = "none " ;
		LSR:description = "LSR is the ratio of total backscattering to molecular backscattering. " ;
	float WVMR(Time, layers) ;
		WVMR:long_name = "Water vapor mixing ratio (WVMR)" ;
		WVMR:units = "g/kg " ;
		WVMR:filled\ Values = "9999 " ;
		WVMR:description = "Derived from water vapor and nitrogen Raman channel measurements and calibrated with flight level measurements" ;
	float WVMR_std(Time, layers) ;
		WVMR_std:long_name = "Estimated WVMR Uncertainty  " ;
		WVMR_std:units = "g/kg " ;
		WVMR_std:filled\ Values = "9999 " ;
		WVMR_std:description = "UWMR uncertainties are provided depending on range and neglecting profile to profile variations" ;
	float T(Time, layers) ;
		T:long_name = "Atmospheric Temperature " ;
		T:units = "Degree  " ;
		T:filled\ Values = "9999 " ;
		T:description = "Temperature derived from high-J and Low-J pure rotational Raman Channels and calibrated with flight level measurements" ;
	float T_std(Time, layers) ;
		T_std:long_name = "Estimated Atmospheric Temperature Uncetainty " ;
		T_std:units = "Degree  " ;
		T_std:filled\ Values = "9999 " ;
		T_std:description = "Temperature uncertainties are provided depending on range and neglecting profile to profile variations" ;

// global attributes:
		:global_att = " This file is generated with our Compact Raman lidar measurements duringVORTEX_SE" ;
		:global_att1 = " The data for each flight is mapped to the same height bin for the entire flight." ;
		:global_att2 = "For Question about this product, contact Zhien Wang, " ;
		:global_att3 = " University of Colorado, Boulder at zhien.wang@colorado.edu" ;
}