netcdf mipl2_20020706 {
dimensions:
	level = 18 ;
	time = UNLIMITED ; // (781 currently)
variables:
	float level(level) ;
		level:long_name = "Nominal altitudes of tangent points" ;
		level:units = "km" ;
	float orbit(time) ;
		orbit:long_name = "MIPAS orbit number" ;
		orbit:units = "dimensionless" ;
	float scan(time) ;
		scan:long_name = "MIPAS scan number" ;
		scan:units = "dimensionless" ;
	float latitude(time) ;
		latitude:long_name = "Latitude of 18 km sweep" ;
		latitude:units = "degrees_north" ;
	float longitude(time) ;
		longitude:long_name = "Longitude of 18 km sweep" ;
		longitude:units = "degrees_east" ;
	int utctime(time) ;
		utctime:long_name = "Time of 18 km sweep" ;
		utctime:units = "seconds since 1993-01-01" ;
	int time(time) ;
		time:long_name = "Time of 18 km sweep" ;
		time:units = "hhmmss" ;
	float sza(time) ;
		sza:long_name = "Solar zenith angle" ;
		sza:units = "degrees" ;
	float local_solar_time(time) ;
		local_solar_time:long_name = "Local solar time" ;
		local_solar_time:units = "hours" ;
	float cloud_flag(time, level) ;
		cloud_flag:long_name = "Cloud flag" ;
		cloud_flag:units = "dimensionless" ;
	float pressure(time, level) ;
		pressure:long_name = "Retrieved pressure at tangent points" ;
		pressure:units = "hPa" ;
	float T(time, level) ;
		T:long_name = "Atmospheric temperature" ;
		T:units = "K" ;
	float T_SX(time, level) ;
		T_SX:long_name = "Retrieval error on atmospheric temperature" ;
		T_SX:units = "K" ;
	float T_A(time, level) ;
		T_A:long_name = "A priori atmospheric temperature" ;
		T_A:units = "K" ;
	float T_SA(time, level) ;
		T_SA:long_name = "A priori error on atmospheric temperature" ;
		T_SA:units = "K" ;
	float T_qflgmw(time, level) ;
		T_qflgmw:long_name = "Quality flag for microwindow convergence" ;
		T_qflgmw:units = "dimensionless" ;
	float T_chisq(time, level) ;
		T_chisq:long_name = "Average chi squared for each nominal altitude" ;
		T_chisq:units = "dimensionless" ;
	float T_AK(time, level, level) ;
		T_AK:long_name = "Full averaging kernel" ;
		T_AK:units = "dimensionless" ;
	float T_AKSUM(time, level) ;
		T_AKSUM:long_name = "sum of the row of the averaging kernel" ;
		T_AKSUM:units = "dimensionless" ;
	float H2O(time, level) ;
		H2O:long_name = "H2O volume mixing ratio" ;
		H2O:units = "ppmv" ;
	float H2O_SX(time, level) ;
		H2O_SX:long_name = "retrieval error on H2O volume mixing ratio" ;
		H2O_SX:units = "ppmv" ;
	float H2O_A(time, level) ;
		H2O_A:long_name = "A priori H2O volume mixing ratio" ;
		H2O_A:units = "ppmv" ;
	float H2O_SA(time, level) ;
		H2O_SA:long_name = "A priori error on H2O volume mixing ratio" ;
		H2O_SA:units = "ppmv" ;
	float H2O_qflgmw(time, level) ;
		H2O_qflgmw:long_name = "Quality flag for microwindow convergence" ;
		H2O_qflgmw:units = "dimensionless" ;
	float H2O_chisq(time, level) ;
		H2O_chisq:long_name = "Average chi squared for each nominal altitude" ;
		H2O_chisq:units = "dimensionless" ;
	float H2O_AK(time, level, level) ;
		H2O_AK:long_name = "Full averaging kernel" ;
		H2O_AK:units = "dimensionless" ;
	float H2O_AKSUM(time, level) ;
		H2O_AKSUM:long_name = "sum of the row of the averaging kernel" ;
		H2O_AKSUM:units = "dimensionless" ;
	float O3(time, level) ;
		O3:long_name = "O3 volume mixing ratio" ;
		O3:units = "ppmv" ;
	float O3_SX(time, level) ;
		O3_SX:long_name = "retrieval error on O3 volume mixing ratio" ;
		O3_SX:units = "ppmv" ;
	float O3_A(time, level) ;
		O3_A:long_name = "A priori O3 volume mixing ratio" ;
		O3_A:units = "ppmv" ;
	float O3_SA(time, level) ;
		O3_SA:long_name = "A priori error on O3 volume mixing ratio" ;
		O3_SA:units = "ppmv" ;
	float O3_qflgmw(time, level) ;
		O3_qflgmw:long_name = "Quality flag for microwindow convergence" ;
		O3_qflgmw:units = "dimensionless" ;
	float O3_chisq(time, level) ;
		O3_chisq:long_name = "Average chi squared for each nominal altitude" ;
		O3_chisq:units = "dimensionless" ;
	float O3_AK(time, level, level) ;
		O3_AK:long_name = "Full averaging kernel" ;
		O3_AK:units = "dimensionless" ;
	float O3_AKSUM(time, level) ;
		O3_AKSUM:long_name = "sum of the row of the averaging kernel" ;
		O3_AKSUM:units = "dimensionless" ;
	float CH4(time, level) ;
		CH4:long_name = "CH4 volume mixing ratio" ;
		CH4:units = "ppmv" ;
	float CH4_SX(time, level) ;
		CH4_SX:long_name = "retrieval error on CH4 volume mixing ratio" ;
		CH4_SX:units = "ppmv" ;
	float CH4_A(time, level) ;
		CH4_A:long_name = "A priori CH4 volume mixing ratio" ;
		CH4_A:units = "ppmv" ;
	float CH4_SA(time, level) ;
		CH4_SA:long_name = "A priori error on CH4 volume mixing ratio" ;
		CH4_SA:units = "ppmv" ;
	float CH4_qflgmw(time, level) ;
		CH4_qflgmw:long_name = "Quality flag for microwindow convergence" ;
		CH4_qflgmw:units = "dimensionless" ;
	float CH4_chisq(time, level) ;
		CH4_chisq:long_name = "Average chi squared for each nominal altitude" ;
		CH4_chisq:units = "dimensionless" ;
	float CH4_AK(time, level, level) ;
		CH4_AK:long_name = "Full averaging kernel" ;
		CH4_AK:units = "dimensionless" ;
	float CH4_AKSUM(time, level) ;
		CH4_AKSUM:long_name = "sum of the row of the averaging kernel" ;
		CH4_AKSUM:units = "dimensionless" ;
	float HDO(time, level) ;
		HDO:long_name = "HDO volume mixing ratio" ;
		HDO:units = "ppmv" ;
	float HDO_SX(time, level) ;
		HDO_SX:long_name = "retrieval error on HDO volume mixing ratio" ;
		HDO_SX:units = "ppmv" ;
	float HDO_A(time, level) ;
		HDO_A:long_name = "A priori HDO volume mixing ratio" ;
		HDO_A:units = "ppmv" ;
	float HDO_SA(time, level) ;
		HDO_SA:long_name = "A priori error on HDO volume mixing ratio" ;
		HDO_SA:units = "ppmv" ;
	float HDO_qflgmw(time, level) ;
		HDO_qflgmw:long_name = "Quality flag for microwindow convergence" ;
		HDO_qflgmw:units = "dimensionless" ;
	float HDO_chisq(time, level) ;
		HDO_chisq:long_name = "Average chi squared for each nominal altitude" ;
		HDO_chisq:units = "dimensionless" ;
	float HDO_AK(time, level, level) ;
		HDO_AK:long_name = "Full averaging kernel" ;
		HDO_AK:units = "dimensionless" ;
	float HDO_AKSUM(time, level) ;
		HDO_AKSUM:long_name = "sum of the row of the averaging kernel" ;
		HDO_AKSUM:units = "dimensionless" ;

// global attributes:
		:title = "MIPAS Envisat science data from the MORSE processor" ;
		:product = "MIPAS L2" ;
		:version = "MORSE v21DEC04" ;
		:contact = "Vivienne Payne (vpayne@aer.com)" ;
		:history = "Processed from MORSE ascii output" ;
		:citation = "V. H. Payne, D. Noone, A. Dudhia, C. Piccolo and R. G. Grainger, Global satellite measurements of HDO and implications for understanding the transport of water vapour into the stratosphere, QJRMS, 133, 1459-1471, 2007" ;
}