Data headers for 'FluxFeedb_ObsSim_prof'

Record

1

Generation date

2023-03-07

Method

ncdump -h

Header

 netcdf FluxFeedb_ObsSim_prof_1_459705237244228770 { 
 dimensions: 
 	sfc_temperature = 5 ; 
 	spectrum = 26901 ; 
 	pressure = 127 ; 
 variables: 
 	double surface_feedback(sfc_temperature, spectrum) ; 
 		surface_feedback:_FillValue = NaN ; 
 		surface_feedback:long_name = "spectral surface feedback" ; 
 		surface_feedback:units = "W m-2 cm-1 K-1" ; 
 		surface_feedback:coordinates = "wavenumber surface_temperature" ; 
 	double T(sfc_temperature, pressure) ; 
 		T:_FillValue = NaN ; 
 		T:long_name = "temperature" ; 
 		T:units = "K" ; 
 		T:coordinates = "pressure_level surface_temperature" ; 
 	double H2O(sfc_temperature, pressure) ; 
 		H2O:_FillValue = NaN ; 
 		H2O:long_name = "water vapour volume mixing ratio" ; 
 		H2O:units = "1" ; 
 		H2O:coordinates = "pressure_level surface_temperature" ; 
 	float O3(pressure) ; 
 		O3:_FillValue = NaNf ; 
 		O3:long_name = "ozone volume mixing ratio" ; 
 		O3:units = "1" ; 
 		O3:coordinates = "pressure_level" ; 
 	float CO2(pressure) ; 
 		CO2:_FillValue = NaNf ; 
 		CO2:long_name = "CO2 volume mixing ratio" ; 
 		CO2:units = "1" ; 
 		CO2:coordinates = "pressure_level" ; 
 	float CH4(pressure) ; 
 		CH4:_FillValue = NaNf ; 
 		CH4:long_name = "CH4 volume mixing ratio" ; 
 		CH4:units = "1" ; 
 		CH4:coordinates = "pressure_level" ; 
 	float N2O(pressure) ; 
 		N2O:_FillValue = NaNf ; 
 		N2O:long_name = "N2O volume mixing ratio" ; 
 		N2O:units = "1" ; 
 		N2O:coordinates = "pressure_level" ; 
 	float O2(pressure) ; 
 		O2:_FillValue = NaNf ; 
 		O2:long_name = "O2 volume mixing ratio" ; 
 		O2:units = "1" ; 
 		O2:coordinates = "pressure_level" ; 
 	double wavenumber(spectrum) ; 
 		wavenumber:_FillValue = NaN ; 
 		wavenumber:long_name = "wavenumber" ; 
 		wavenumber:unit = "cm-1" ; 
 	float pressure_level(pressure) ; 
 		pressure_level:_FillValue = NaNf ; 
 		pressure_level:long_name = "pressure level" ; 
 		pressure_level:unit = "Pa" ; 
 	int64 surface_temperature(sfc_temperature) ; 
 		surface_temperature:long_name = "surface temperature" ; 
 		surface_temperature:unit = "K" ; 
  
 // global attributes: 
 		:description = "Spectrally resolved surface feedback calculated based on 1D RCE model konrad using line-by-line radiative transfer model ARTS." ; 
 		:creation_date = "2023-03-07" ; 
 		:contact = "Florian Roemer (
 florian.roemer@nulluni-hamburg.de)" ; 
 		:institute = "Center for Earth System Research and Sustainability (CEN), Meteorological Institute, Universitaet Hamburg" ; 
 }