netcdf caribic/IAGOS-CARIBIC_MS_files_collection_20240112/CARIBIC-2/MS_20080226_223_CAN_FRA_10s_V36.nc { dimensions: time = 4316; variables: float FlightPhase(time=4316); :_FillValue = NaNf; // float :standard_name = "platform_status_flag"; :long_name = "0-10, 0=nn 1=PowerOn 2=EngineStart 3=TaxiOut 4=TakeOff 5=Climb 6=Cruise 7=Approach 8=RollOut 9=TaxiIn 10=EngineStop"; :unit = "1"; :standard_unit = "1"; :coverage_content_type = "physicalMeasurement"; :C_format = "%d"; :coordinates = "BaroAltit PosLat PosLong"; float PosLat(time=4316); :_FillValue = NaNf; // float :standard_name = "latitude"; :long_name = "Present Position Latitude"; :unit = "degrees"; :standard_unit = "degree_north"; :coverage_content_type = "coordinate"; :C_format = "%.3f"; :axis = "Y"; float PosLong(time=4316); :_FillValue = NaNf; // float :standard_name = "longitude"; :long_name = "Present Position Longitude"; :unit = "degrees"; :standard_unit = "degree_east"; :coverage_content_type = "coordinate"; :C_format = "%.3f"; :axis = "X"; float TrueHead(time=4316); :_FillValue = NaNf; // float :standard_name = "platform_orientation"; :long_name = "True Heading"; :unit = "degrees"; :standard_unit = "degree"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float WindSpeed(time=4316); :_FillValue = NaNf; // float :standard_name = "wind_speed"; :long_name = "Wind Speed"; :unit = "knots"; :standard_unit = "(1852/3600) m s-1"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float WindDirTr(time=4316); :_FillValue = NaNf; // float :standard_name = "wind_to_direction"; :long_name = "Wind Angle (True)"; :unit = "degrees"; :standard_unit = "degree"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float PitchAng(time=4316); :_FillValue = NaNf; // float :standard_name = "platform_pitch_angle"; :long_name = "Pitch Angel"; :unit = "degrees"; :standard_unit = "degree"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float RollAng(time=4316); :_FillValue = NaNf; // float :standard_name = "platform_roll_angle"; :long_name = "Roll Angel"; :unit = "degrees"; :standard_unit = "degree"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float StdAltitu(time=4316); :_FillValue = NaNf; // float :standard_name = "barometric_altitude"; :long_name = "Std Press Altitude"; :unit = "feet"; :standard_unit = "0.3048 m"; :coverage_content_type = "physicalMeasurement"; :C_format = "%d"; :coordinates = "BaroAltit PosLat PosLong"; float BaroAltit(time=4316); :_FillValue = NaNf; // float :standard_name = "barometric_altitude"; :long_name = "Baro Corrected Altitude"; :unit = "feet"; :standard_unit = "0.3048 m"; :coverage_content_type = "coordinate"; :C_format = "%d"; :axis = "Z"; float TrAirSpeed(time=4316); :_FillValue = NaNf; // float :standard_name = "platform_speed_wrt_air"; :long_name = "True Airspeed"; :unit = "knots"; :standard_unit = "(1852/3600) m s-1"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float ToAirTmp(time=4316); :_FillValue = NaNf; // float :standard_name = "air_total_temperature"; :long_name = "Total Air Temperature"; :unit = "degC"; :standard_unit = "degree_C"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float AltitRate(time=4316); :_FillValue = NaNf; // float :standard_name = "tendency_of_barometric_altitude"; :long_name = "Altitude Rate"; :unit = "feet/min"; :standard_unit = "0.3048/60 m s-1"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float StcAirTmp(time=4316); :_FillValue = NaNf; // float :standard_name = "air_temperature"; :long_name = "Static Air Temperature"; :unit = "degC"; :standard_unit = "degree_C"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float AngOAttck(time=4316); :_FillValue = NaNf; // float :standard_name = "platform_attack_angle"; :long_name = "Corrected Angle of Attack"; :unit = "degrees"; :standard_unit = "degree"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float TotPres(time=4316); :_FillValue = NaNf; // float :standard_name = "air_total_pressure"; :long_name = "Total Pressure"; :unit = "mbar"; :standard_unit = "100 Pa"; :coverage_content_type = "physicalMeasurement"; :C_format = "%d"; :coordinates = "BaroAltit PosLat PosLong"; float VertSpeed(time=4316); :_FillValue = NaNf; // float :standard_name = "platform_vertical_speed_wrt_air"; :long_name = "Vertical Velocity"; :unit = "feet/min"; :standard_unit = "0.3048/60 m s-1"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float GndSpeed(time=4316); :_FillValue = NaNf; // float :standard_name = "platform_speed_wrt_ground"; :long_name = "Ground Speed"; :unit = "knots"; :standard_unit = "(1852/3600) m s-1"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float LocalTime(time=4316); :_FillValue = NaNf; // float :standard_name = "time"; :long_name = "Local Solar Time (LST) as day fraction"; :unit = "days since 2008-02-26"; :standard_unit = "d"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.8f"; :coordinates = "BaroAltit PosLat PosLong"; float pstatic(time=4316); :_FillValue = NaNf; // float :standard_name = "air_pressure"; :long_name = "Static Pressure"; :unit = "mbar"; :standard_unit = "100 Pa"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float Tpot(time=4316); :_FillValue = NaNf; // float :standard_name = "air_potential_temperature"; :long_name = "Potential Temperature"; :unit = "K"; :standard_unit = "K"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float Altitude(time=4316); :_FillValue = NaNf; // float :standard_name = "barometric_altitude"; :long_name = "Pressure Altitude"; :unit = "m"; :standard_unit = "m"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float SZA(time=4316); :_FillValue = NaNf; // float :standard_name = "solar_zenith_angle"; :long_name = "Solar zenith angle in degrees calculated from position, time and date according to DIN 5034 algorithm"; :unit = "deg"; :standard_unit = "degree"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.7f"; :coordinates = "BaroAltit PosLat PosLong"; float H2Ostatus(time=4316); :_FillValue = NaNf; // float :standard_name = "status_flag"; :long_name = "Instrument status, 0: all 3 sensors worked, 1: PA gaseous failure (all H2O >100% saturation vs. ice (T<0C) / liquid (T>0C) is attributed to clouds 2: only Buck-CR2 (total H2O) worked, 3: no data"; :unit = "1-3"; :standard_unit = "1"; :coverage_content_type = "physicalMeasurement"; :C_format = "%d"; :coordinates = "BaroAltit PosLat PosLong"; float H2Ogas(time=4316); :_FillValue = NaNf; // float :standard_name = "mole_fraction_of_water_vapor_in_air"; :long_name = "Gaseous H2O volume mixing ratio"; :unit = "ppm"; :standard_unit = "1e-6"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.2f"; :coordinates = "BaroAltit PosLat PosLong"; float H2Ocloud(time=4316); :_FillValue = NaNf; // float :standard_name = "mole_fraction_of_cloud_condensed_water_in_air"; :long_name = "Cloud content volume mixing ratio, corrected for enhancement of cloud particles by non-isokinetic inlet"; :unit = "ppm"; :standard_unit = "1e-6"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.2f"; :coordinates = "BaroAltit PosLat PosLong"; float Ozone(time=4316); :_FillValue = NaNf; // float :standard_name = "mole_fraction_of_ozone_in_air"; :long_name = "Ozone mixing ratio"; :unit = "ppb"; :standard_unit = "1e-9"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.2f"; :coordinates = "BaroAltit PosLat PosLong"; float H_rel_TP(time=4316); :_FillValue = NaNf; // float :standard_name = "altitude_wrt_tropopause"; :long_name = "Ozone-based representative height above the tropopause"; :unit = "km"; :standard_unit = "1e3 m"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.2f"; :coordinates = "BaroAltit PosLat PosLong"; float NO(time=4316); :_FillValue = NaNf; // float :standard_name = "mole_fraction_of_nitrogen_monoxide_in_air"; :long_name = "NO volume mixing ratio"; :unit = "ppb"; :standard_unit = "1e-9"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.4f"; :coordinates = "BaroAltit PosLat PosLong"; float NOy(time=4316); :_FillValue = NaNf; // float :standard_name = "mole_fraction_of_total_reactive_nitrogen_in_air"; :long_name = "NOy volume mixing ratio"; :unit = "ppb"; :standard_unit = "1e-9"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.4f"; :coordinates = "BaroAltit PosLat PosLong"; float TGM(time=4316); :_FillValue = NaNf; // float :standard_name = "mass_concentration_of_total_gaseous_mercury_in_air"; :long_name = "Total gaseous mercury concentration"; :unit = "ng/m^3_STP"; :standard_unit = "1e-12 kg m-3"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.3f"; :coordinates = "BaroAltit PosLat PosLong"; float GEM(time=4316); :_FillValue = NaNf; // float :standard_name = "mass_concentration_of_gaseous_elemental_mercury_in_air"; :long_name = "Gaseous elemental mercury concentration"; :unit = "ng/m^3_STP"; :standard_unit = "1e-12 kg m-3"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.3f"; :coordinates = "BaroAltit PosLat PosLong"; float CO(time=4316); :_FillValue = NaNf; // float :standard_name = "mole_fraction_of_carbon_monoxide_in_air"; :long_name = "Carbon monoxide mixing ratio"; :unit = "ppb"; :standard_unit = "1e-9"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.2f"; :coordinates = "BaroAltit PosLat PosLong"; float CO2(time=4316); :_FillValue = NaNf; // float :standard_name = "mole_fraction_of_carbon_dioxide_in_air"; :long_name = "Carbon dioxide dry air mole fraction"; :unit = "ppm"; :standard_unit = "1e-6"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.2f"; :coordinates = "BaroAltit PosLat PosLong"; float CH4(time=4316); :_FillValue = NaNf; // float :standard_name = "mole_fraction_of_methane_in_air"; :long_name = "Methane dry air mole fraction"; :unit = "ppb"; :standard_unit = "1e-9"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float CH4_Err(time=4316); :_FillValue = NaNf; // float :standard_name = "mole_fraction_of_methane_in_air_standard_error"; :long_name = "Statistical uncertainty of CH4"; :unit = "ppb"; :standard_unit = "1e-9"; :coverage_content_type = "qualityInformation"; :C_format = "%.2f"; :coordinates = "BaroAltit PosLat PosLong"; float ACN(time=4316); :_FillValue = NaNf; // float :standard_name = "mole_fraction_of_aceto_nitrile_in_air"; :long_name = "Acetonitrile volume mixing ratio"; :unit = "ppt"; :standard_unit = "1e-12"; :coverage_content_type = "physicalMeasurement"; :C_format = "%d"; :coordinates = "BaroAltit PosLat PosLong"; float ACE(time=4316); :_FillValue = NaNf; // float :standard_name = "mole_fraction_of_acetone_in_air"; :long_name = "Acetone volume mixing ratio"; :unit = "ppt"; :standard_unit = "1e-12"; :coverage_content_type = "physicalMeasurement"; :C_format = "%d"; :coordinates = "BaroAltit PosLat PosLong"; float N4_12(time=4316); :_FillValue = NaNf; // float :standard_name = "number_concentration_of_dried_aerosol_particles_at_stp_in_air"; :long_name = "Particle number concentration between 4 and 12 nm dry diameter"; :unit = "1/cm^3_STP"; :standard_unit = "1e6 m-3"; :coverage_content_type = "physicalMeasurement"; :C_format = "%d"; :coordinates = "BaroAltit PosLat PosLong"; float N12(time=4316); :_FillValue = NaNf; // float :standard_name = "number_concentration_of_dried_aerosol_particles_at_stp_in_air"; :long_name = "Particle number concentration for particles larger than 12 nm dry diameter"; :unit = "1/cm^3_STP"; :standard_unit = "1e6 m-3"; :coverage_content_type = "physicalMeasurement"; :C_format = "%d"; :coordinates = "BaroAltit PosLat PosLong"; float N18(time=4316); :_FillValue = NaNf; // float :standard_name = "number_concentration_of_dried_aerosol_particles_at_stp_in_air"; :long_name = "Particle number concentration for particles larger than 18 nm dry diameter"; :unit = "1/cm^3_STP"; :standard_unit = "1e6 m-3"; :coverage_content_type = "physicalMeasurement"; :C_format = "%d"; :coordinates = "BaroAltit PosLat PosLong"; float PNumC(time=4316); :_FillValue = NaNf; // float :standard_name = "number_concentration_of_dried_aerosol_particles_at_stp_in_air"; :long_name = "Particle number concentration between 140 and 1050 nm diameter"; :unit = "1/cm^3_STP"; :standard_unit = "1e6 m-3"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.2f"; :coordinates = "BaroAltit PosLat PosLong"; float PSurfC(time=4316); :_FillValue = NaNf; // float :standard_name = "surface_concentration_of_dried_aerosol_particles_at_stp_in_air"; :long_name = "Particle surface concentration between 140 and 1050 nm diameter"; :unit = "micrometer^2/cm^3_STP"; :standard_unit = "1e-6 m-3"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.2f"; :coordinates = "BaroAltit PosLat PosLong"; float PVolC(time=4316); :_FillValue = NaNf; // float :standard_name = "volume_concentration_of_dried_aerosol_particles_at_stp_in_air"; :long_name = "Particle volume concentration between 140 and 1050 nm diameter"; :unit = "micrometer^3/cm^3_STP"; :standard_unit = "1e-12"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.8f"; :coordinates = "BaroAltit PosLat PosLong"; float PMassC(time=4316); :_FillValue = NaNf; // float :standard_name = "mass_concentration_of_dried_aerosol_particles_at_stp_in_air"; :long_name = "Particle mass concentration between 140 and 1050 nm diameter"; :unit = "microgram/m^3_STP"; :standard_unit = "1e-9 kg m-3"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.4f"; :coordinates = "BaroAltit PosLat PosLong"; float PSizeD01(time=4316); :_FillValue = NaNf; // float :standard_name = "number_size_distribution_of_dried_aerosol_particles_at_stp_in_air"; :long_name = "Particle size distribution bin concentration between 140.0 and 171.3 nm diameter (dN/dlog(dp))"; :unit = "1/cm^3_STP"; :standard_unit = "1e6 m-3"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.2f"; :coordinates = "BaroAltit PosLat PosLong"; float PSizeD02(time=4316); :_FillValue = NaNf; // float :standard_name = "number_size_distribution_of_dried_aerosol_particles_at_stp_in_air"; :long_name = "Particle size distribution bin concentration between 171.3 and 209.5 nm diameter (dN/dlog(dp))"; :unit = "1/cm^3_STP"; :standard_unit = "1e6 m-3"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.2f"; :coordinates = "BaroAltit PosLat PosLong"; float PSizeD03(time=4316); :_FillValue = NaNf; // float :standard_name = "number_size_distribution_of_dried_aerosol_particles_at_stp_in_air"; :long_name = "Particle size distribution bin concentration between 209.5 and 256.2 nm diameter (dN/dlog(dp))"; :unit = "1/cm^3_STP"; :standard_unit = "1e6 m-3"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.2f"; :coordinates = "BaroAltit PosLat PosLong"; float PSizeD04(time=4316); :_FillValue = NaNf; // float :standard_name = "number_size_distribution_of_dried_aerosol_particles_at_stp_in_air"; :long_name = "Particle size distribution bin concentration between 256.2 and 313.4 nm diameter (dN/dlog(dp))"; :unit = "1/cm^3_STP"; :standard_unit = "1e6 m-3"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.2f"; :coordinates = "BaroAltit PosLat PosLong"; float PSizeD05(time=4316); :_FillValue = NaNf; // float :standard_name = "number_size_distribution_of_dried_aerosol_particles_at_stp_in_air"; :long_name = "Particle size distribution bin concentration between 313.4 and 383.4 nm diameter (dN/dlog(dp))"; :unit = "1/cm^3_STP"; :standard_unit = "1e6 m-3"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.2f"; :coordinates = "BaroAltit PosLat PosLong"; float PSizeD06(time=4316); :_FillValue = NaNf; // float :standard_name = "number_size_distribution_of_dried_aerosol_particles_at_stp_in_air"; :long_name = "Particle size distribution bin concentration between 383.4 and 469.0 nm diameter (dN/dlog(dp))"; :unit = "1/cm^3_STP"; :standard_unit = "1e6 m-3"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.2f"; :coordinates = "BaroAltit PosLat PosLong"; float PSizeD07(time=4316); :_FillValue = NaNf; // float :standard_name = "number_size_distribution_of_dried_aerosol_particles_at_stp_in_air"; :long_name = "Particle size distribution bin concentration between 469.0 and 573.7 nm diameter (dN/dlog(dp))"; :unit = "1/cm^3_STP"; :standard_unit = "1e6 m-3"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.2f"; :coordinates = "BaroAltit PosLat PosLong"; float PSizeD08(time=4316); :_FillValue = NaNf; // float :standard_name = "number_size_distribution_of_dried_aerosol_particles_at_stp_in_air"; :long_name = "Particle size distribution bin concentration between 573.7 and 701.7 nm diameter (dN/dlog(dp))"; :unit = "1/cm^3_STP"; :standard_unit = "1e6 m-3"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.2f"; :coordinates = "BaroAltit PosLat PosLong"; float PSizeD09(time=4316); :_FillValue = NaNf; // float :standard_name = "number_size_distribution_of_dried_aerosol_particles_at_stp_in_air"; :long_name = "Particle size distribution bin concentration between 701.7 and 858.4 nm diameter (dN/dlog(dp))"; :unit = "1/cm^3_STP"; :standard_unit = "1e6 m-3"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.2f"; :coordinates = "BaroAltit PosLat PosLong"; float PSizeD10(time=4316); :_FillValue = NaNf; // float :standard_name = "number_size_distribution_of_dried_aerosol_particles_at_stp_in_air"; :long_name = "Particle size distribution bin concentration between 858.4 and 1050.0 nm diameter (dN/dlog(dp))"; :unit = "1/cm^3_STP"; :standard_unit = "1e6 m-3"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.2f"; :coordinates = "BaroAltit PosLat PosLong"; float cpc1_amb_ncm3(time=4316); :_FillValue = NaNf; // float :standard_name = "number_concentration_of_aerosol_particles_in_ambient_air"; :long_name = "CPC1 total particle number concentration for diameter dp > 15 nm from P2c instrument, converted to ambient conditions"; :unit = "1e6 m-3"; :standard_unit = "1e6 m-3"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.2f"; :coordinates = "BaroAltit PosLat PosLong"; float cpc2_amb_ncm3(time=4316); :_FillValue = NaNf; // float :standard_name = "number_concentration_of_non_volatile_aerosol_particles_in_ambient_air"; :long_name = "CPC2 non-volatile particle number concentration for diameter dp > 15 nm from P2c instrument, converted to ambient conditions"; :unit = "1e6 m-3"; :standard_unit = "1e6 m-3"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.2f"; :coordinates = "BaroAltit PosLat PosLong"; float opc1_amb_ncm3(time=4316); :_FillValue = NaNf; // float :standard_name = "number_concentration_of_aerosol_particles_of_diameter_larger_than_250nm_in_ambient_air"; :long_name = "OPC1 total particle mixing ratio dp larger than 250 nm from P2c instrument, converted to ambient conditions"; :unit = "1e6 m-3"; :standard_unit = "1e6 m-3"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.2f"; :coordinates = "BaroAltit PosLat PosLong"; float opc12_amb_ncm3(time=4316); :_FillValue = NaNf; // float :standard_name = "number_concentration_of_aerosol_particles_of_diameter_larger_than_1_um_in_ambient_air"; :long_name = "Total number of particles diameter dp > 1000 nm from P2c instrument, converted to ambient conditions"; :unit = "1e6 m-3"; :standard_unit = "1e6 m-3"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.2f"; :coordinates = "BaroAltit PosLat PosLong"; float SC_Conc(time=4316); :_FillValue = NaNf; // float :standard_name = "number_concentration_of_ambient_aerosol_particles_in_air"; :long_name = "Concentration of scattering particles without black carbon"; :unit = "1/cm^3_STP"; :standard_unit = "1e6 m-3"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.3f"; :coordinates = "BaroAltit PosLat PosLong"; float BC_Mass_Conc(time=4316); :_FillValue = NaNf; // float :standard_name = "mass_concentration_of_elemental_carbon_dry_aerosol_particles_in_air"; :long_name = "Mass of black carbon particles"; :unit = "ng/m^3_STP"; :standard_unit = "1e-12 kg m-3"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.3f"; :coordinates = "BaroAltit PosLat PosLong"; float BC_Conc(time=4316); :_FillValue = NaNf; // float :standard_name = "number_concentration_of_elemental_carbon_dry_aerosol_particles_in_air"; :long_name = "Concentration of black carbon particles"; :unit = "1/cm^3_STP"; :standard_unit = "1e6 m-3"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.3f"; :coordinates = "BaroAltit PosLat PosLong"; float temp__k_(time=4316); :_FillValue = NaNf; // float :standard_name = "air_temperature"; :long_name = "Temperature K from ECMWF"; :unit = "K"; :standard_unit = "K"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float pv__pvu_(time=4316); :_FillValue = NaNf; // float :standard_name = "ertel_potential_vorticity"; :long_name = "Potential vorticity in PVU calculated from the wind and temperature fields provided by ECMWF"; :unit = "PVU"; :standard_unit = "1e-6 K m2 kg-1 s-1"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float pot_temp__k_(time=4316); :_FillValue = NaNf; // float :standard_name = "air_potential_temperature"; :long_name = "Potential temperature K ECMWF"; :unit = "K"; :standard_unit = "K"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float eq_pott_temp__k_(time=4316); :_FillValue = NaNf; // float :standard_name = "equivalent_potential_temperature"; :long_name = "Equivalent potential temperature in K ECMWF"; :unit = "K"; :standard_unit = "K"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float spec_hum__g_kg_(time=4316); :_FillValue = NaNf; // float :standard_name = "specific_humidity"; :long_name = "Specific humidity or q in g/kg is the amount of water vapour per kg air ECMWF"; :unit = "g/kg"; :standard_unit = "1e-3 kg kg-1"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float u__m_s_(time=4316); :_FillValue = NaNf; // float :standard_name = "eastward_wind"; :long_name = "Eastward wind components u m/s ECMWF"; :unit = "m/s"; :standard_unit = "m s-1"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float v__m_s_(time=4316); :_FillValue = NaNf; // float :standard_name = "northward_wind"; :long_name = "Northward wind components v m/s ECMWF"; :unit = "m/s"; :standard_unit = "m s-1"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float w__mubar_s_(time=4316); :_FillValue = NaNf; // float :standard_name = "upward_air_velocity"; :long_name = "Vertical wind speed w dp/dt in in 0.1 Pa/s (micro-bar/s) ECMWF"; :unit = "mubar/s"; :standard_unit = "0.1 Pa s-1"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float wind_speed__m_s_(time=4316); :_FillValue = NaNf; // float :standard_name = "wind_speed"; :long_name = "Wind speed m/s ECMWF"; :unit = "m/s"; :standard_unit = "m/s"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float wind_dir__deg_(time=4316); :_FillValue = NaNf; // float :standard_name = "wind_from_direction"; :long_name = "Wind direction in degrees ECMWF"; :unit = "deg"; :standard_unit = "degree"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float h2o__ppmv_(time=4316); :_FillValue = NaNf; // float :standard_name = "mole_fraction_of_water_vapor_in_air"; :long_name = "Total amount of water in ppmV ECMWF"; :unit = "ppm"; :standard_unit = "1e-6"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float rh___(time=4316); :_FillValue = NaNf; // float :standard_name = "relative_humidity"; :long_name = "Relative humidity in %, ECMWF relative to water when temperature is above 0 degr C, relative to ice when temperature is below 0 degr C"; :unit = "%"; :standard_unit = "%"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float z__0_1_g_m_(time=4316); :_FillValue = NaNf; // float :standard_name = "geopotential"; :long_name = "Geopotential of aircraft in 0.1*g m ECMWF"; :unit = "0.1*g_m"; :standard_unit = "0.981 m2 s-2"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float eq_latitude_deg_n_(time=4316); :_FillValue = NaNf; // float :standard_name = "equivalent_latitude"; :long_name = "Equivalent latitude in degrees north from ECMWF"; :unit = "degrees_north"; :standard_unit = "degree_north"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float cc(time=4316); :_FillValue = NaNf; // float :standard_name = "cloud_area_fraction"; :long_name = "Fraction of the area of the model grid cells covered by clouds (0 to 1) ECMWF"; :unit = "0-1"; :standard_unit = "1"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float clwc_g_kg_(time=4316); :_FillValue = NaNf; // float :standard_name = "mass_fraction_of_cloud_liquid_water_in_air"; :long_name = "Cloud water contents in g/kg ECMWF"; :unit = "g/kg"; :standard_unit = "1e-3 kg kg-1"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float clic_g_kg_(time=4316); :_FillValue = NaNf; // float :standard_name = "mass_fraction_of_cloud_ice_in_air"; :long_name = "Cloud ice contents in g/kg ECMWF"; :unit = "g/kg"; :standard_unit = "1e-3 kg kg-1"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float p_strop__hpa_(time=4316); :_FillValue = NaNf; // float :standard_name = "thermal_tropopause_air_pressure"; :long_name = "Pressure of static tropopause (WMO) in hPa ECMWF"; :unit = "hPa"; :standard_unit = "100 Pa"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float p_dtrop__hpa_(time=4316); :_FillValue = NaNf; // float :standard_name = "dynamic_tropopause_air_pressure"; :long_name = "Pressure of dynamical tropopause (3.5 PVU) in hPa ECMWF"; :unit = "hPa"; :standard_unit = "100 Pa"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float t_strop__k_(time=4316); :_FillValue = NaNf; // float :standard_name = "thermal_tropopause_air_temperature"; :long_name = "Temperature of static tropopause (WMO) in K ECMWF"; :unit = "K"; :standard_unit = "K"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float t_dtrop__k_(time=4316); :_FillValue = NaNf; // float :standard_name = "dynamic_tropopause_air_temperature"; :long_name = "Temperature of dynamical tropopause (3.5 PVU) in K ECMWF"; :unit = "K"; :standard_unit = "K"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float pt_strop__k_(time=4316); :_FillValue = NaNf; // float :standard_name = "thermal_tropopause_air_potential_temperature"; :long_name = "Potential temperature of static tropopause (WMO) in K ECMWF"; :unit = "K"; :standard_unit = "K"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float pt_dtrop__k_(time=4316); :_FillValue = NaNf; // float :standard_name = "dynamic_tropopause_air_potential_temperature"; :long_name = "Potential temperature of dynamical tropopause (3.5 PVU) in K ECMWF"; :unit = "K"; :standard_unit = "K"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float pv_strop__pvu_(time=4316); :_FillValue = NaNf; // float :standard_name = "thermal_tropopause_potential_vorticity"; :long_name = "PV of static tropopause (WMO) in PVU ECMWF"; :unit = "PVU"; :standard_unit = "1e-6 K m2 kg-1 s-1"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float z_strop__01grav_m_(time=4316); :_FillValue = NaNf; // float :standard_name = "thermal_tropopause_geopotential"; :long_name = "Geopotential of static tropopause (WMO) in 0.1*g m ECMWF"; :unit = "0.1*g_m"; :standard_unit = "0.981 m2 s-2"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float z_dtrop__01grav_m_(time=4316); :_FillValue = NaNf; // float :standard_name = "dynamic_tropopause_geopotential"; :long_name = "Geopotential of dynamical tropopause (3.5 PVU) in 0.1*g m ECMWF"; :unit = "0.1*g_m"; :standard_unit = "0.981 m2 s-2"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float dp_strop__hpa_(time=4316); :_FillValue = NaNf; // float :standard_name = "difference_of_air_pressure_from_thermal_tropopause"; :long_name = "Pressure below static tropopause (WMO) in hPa ECMWF"; :unit = "hPa"; :standard_unit = "100 Pa"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; float dp_dtrop__hpa_(time=4316); :_FillValue = NaNf; // float :standard_name = "difference_of_air_pressure_from_dynamic_tropopause"; :long_name = "Pressure below dynamical tropopause (3.5 PVU) in hPa ECMWF"; :unit = "hPa"; :standard_unit = "100 Pa"; :coverage_content_type = "physicalMeasurement"; :C_format = "%.1f"; :coordinates = "BaroAltit PosLat PosLong"; long time(time=4316); :name = "TimeCRef"; :standard_name = "time"; :long_name = "CARIBIC master computer time, UTC"; :axis = "T"; :coverage_content_type = "coordinate"; :units = "seconds since 2008-02-26 16:45:45"; :calendar = "proleptic_gregorian"; // global attributes: :na_file_header = "249 1001", "F. Obersteiner; H. Boenisch; T. Gehrlein; A. Zahn; florian.obersteiner@kit.edu", "Institute of Meteorology and Climate Research (IMK), Karlsruhe Institute of Technology (KIT), 76021 Karlsruhe, P.O. Box 3640, Germany", "All continuous measurements (10s averages) for IAGOS-CARIBIC (onboard Airbus A340-600 HE of Lufthansa)", "IAGOS-CARIBIC (CARIBIC-2), http://www.caribic-atmospheric.com/", "1 1", "2008 02 26 2023 09 25", "10", "TimeCRef; CARIBIC_reference_time_since_0_hours_UTC_on_first_date_in_line_7; [s]", "90", "1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1", "9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999 9999999", "FlightPhase; (0-10 0=nn 1=PowerOn 2=EngineStart 3=TaxiOut 4=TakeOff 5=Climb 6=Cruise 7=Approach 8=RollOut 9=TaxiIn 10=EngineStop); [1]", "PosLat; Present Position Latitude; [degrees] # ranging from -90 (south pole) to +90 (north pole)", "PosLong; Present Position Longitude; [degrees] # ranging -180 to +180 (i.e. 180West to 180East)", "TrueHead; True Heading; [degrees] # ranging from -180 to +180; +90 means aircraft\'s nose is pointing towards east", "WindSpeed; Wind Speed; [knots] # 1 knot = 1852/3600 m/s", "WindDirTr; Wind Angle (True); [degrees] # from -180 to +180; +90 means wind blows from the east", "PitchAng; Pitch Angel; [degrees] # positive if nose above horizon", "RollAng; Roll Angel; [degrees] # positive if left wing higher than right wing", "StdAltitu; Std Press Altitude; [feet] # 1 ft = 0.3048 m; derived from pressure assuming standard atmosphere with 1013.25 mbar sea-level pressure", "BaroAltit; Baro Corrected Altitude; [feet] # attention: jumps during flights", "TrAirSpeed; True Airspeed; [knots]", "ToAirTmp; Total Air Temperature; [degC] # Celsius-temperature-scale; in degree Celsius", "AltitRate; Altitude Rate; [feet/min] # vertical speed derived from change in altitude values", "StcAirTmp; Static Air Temperature; [degC] # Celsius-temperature-scale; in degree Celsius", "AngOAttck; Corrected Angle of Attack; [degrees]", "TotPres; Total Pressure; [mbar]", "VertSpeed; Vertical Velocity; [feet/min]", "GndSpeed; Ground Speed; [knots]", "LocalTime; Local Solar Time (LST) as day fraction; [d] # calculated based on UTC_Arinc and PosLong", "pstatic; StaticPressure; [mbar] # pstatic=exp((1/0.190284)*ln(1-(StdAltitu)*0.3048*0.0065/288.15))*1013.246)", "Tpot; PotentialTemperature; [K] # Tpot=(StcAirTmp+273.15)*exp(0.2857*ln(1000/pstatic))", "Altitude; Pressure Altitude; [m] # Altitude=StdAltitu*0.3048", "SZA; solar zenith angle in degrees calculated from position, time and date according to DIN 5034 algorithm; [deg]", "H2Ostatus; Instrument status, 0: all 3 sensors worked, 1: PA gaseous failure (all H2O >100% saturation vs. ice (T<0C) / liquid (T>0C) is attributed to clouds 2: only Buck-CR2 (total H2O) worked, 3: no data; [1-3]", "H2Ogas; gaseous H2O volume mixing ratio; [ppm]", "H2Ocloud; Cloud content volume mixing ratio, corrected for enhancement of cloud particles by non-isokinetic inlet; [ppm]", "Ozone; Ozone volume mixing ratio; [ppb]", "H_rel_TP; Ozone-based representative height above the tropopause; [km] # derived from ozone sonde data collected at Hohenpeissenberg [Sprung and Zahn, JGR, 2010]", "NO; NO volume mixing ratio; [ppb]", "NOy; NOy volume mixing ratio; [ppb]", "TGM; Total gaseous mercury concentration; [ng/m^3_STP]", "GEM; Gaseous elemental mercury concentration; [ng/m^3_STP]", "CO; Carbon monoxide mixing ratio; [ppb]", "CO2; Carbon dioxide dry air mole fraction; [ppm] # since container Mod.C: measured by Picarro instrument", "CH4; Methane dry air mole fraction; [ppb] # since container Mod.C: measured by Picarro instrument", "CH4_Err; statistical uncertainty of CH4; [ppb] # not used anymore since container Mod.C", "ACN; Acetonitrile volume mixing ratio; [ppt]", "ACE; Acetone volume mixing ratio; [ppt]", "N4_12; Particle number concentration between 4 and 12 nm dry diameter; [1/cm^3_STP]", "N12; Particle number concentration for particles larger than 12 nm dry diameter; [1/cm^3_STP]", "N18; Particle number concentration for particles larger than 18 nm dry diameter; [1/cm^3_STP]", "PNumC; Particle number concentration between 140 and 1050 nm diameter; [1/cm^3_STP]", "PSurfC; Particle surface concentration between 140 and 1050 nm diameter; [micrometer^2/cm^3_STP]", "PVolC; Particle volume concentration between 140 and 1050 nm diameter; [micrometer^3/cm^3_STP]", "PMassC; Particle mass concentration between 140 and 1050 nm diameter; [microgram/m^3_STP]", "PSizeD01; Particle size distribution bin concentration between 140.0 and 171.3 nm diameter (dN/dlog(dp)); [1/cm^3_STP]", "PSizeD02; Particle size distribution bin concentration between 171.3 and 209.5 nm diameter (dN/dlog(dp)); [1/cm^3_STP]", "PSizeD03; Particle size distribution bin concentration between 209.5 and 256.2 nm diameter (dN/dlog(dp)); [1/cm^3_STP]", "PSizeD04; Particle size distribution bin concentration between 256.2 and 313.4 nm diameter (dN/dlog(dp)); [1/cm^3_STP]", "PSizeD05; Particle size distribution bin concentration between 313.4 and 383.4 nm diameter (dN/dlog(dp)); [1/cm^3_STP]", "PSizeD06; Particle size distribution bin concentration between 383.4 and 469.0 nm diameter (dN/dlog(dp)); [1/cm^3_STP]", "PSizeD07; Particle size distribution bin concentration between 469.0 and 573.7 nm diameter (dN/dlog(dp)); [1/cm^3_STP]", "PSizeD08; Particle size distribution bin concentration between 573.7 and 701.7 nm diameter (dN/dlog(dp)); [1/cm^3_STP]", "PSizeD09; Particle size distribution bin concentration between 701.7 and 858.4 nm diameter (dN/dlog(dp)); [1/cm^3_STP]", "PSizeD10; Particle size distribution bin concentration between 858.4 and 1050.0 nm diameter (dN/dlog(dp)); [1/cm^3_STP]", "cpc1_amb_ncm3; CPC1 total particle number concentration for diameter dp > 15 nm from P2c instrument, converted to ambient conditions; [1e6 m-3]", "cpc2_amb_ncm3; CPC2 non-volatile particle number concentration for diameter dp > 15 nm from P2c instrument, converted to ambient conditions; [1e6 m-3]", "opc1_amb_ncm3; OPC1 total particle mixing ratio dp larger than 250 nm from P2c instrument, converted to ambient conditions; [1e6 m-3]", "opc12_amb_ncm3; total number of particles diameter dp > 1000 nm from P2c instrument, converted to ambient conditions; [1e6 m-3]", "SC_Conc; Concentration of scattering particles without black carbon; [1/cm^3_STP]", "BC_Mass_Conc; Mass of black carbon particles; [ng/m^3_STP]", "BC_Conc; Concentration of black carbon particles; [1/cm^3_STP]", "temp__k_; temperature K from ECMWF; [K]", "pv__pvu_; potential vorticity in PVU calculated from the wind and temperature fields provided by ECMWF; [PVU]", "pot_temp__k_; potential temperature K ECMWF; [K]", "eq_pott_temp__k_; equivalent potential temperature in K ECMWF; [K]", "spec_hum__g_kg_; specific humidity or q in g/kg is the amount of water vapour per kg air ECMWF; [g/kg]", "u__m_s_; eastward wind components u m/s ECMWF; [m/s]", "v__m_s_; northward wind components v m/s ECMWF; [m/s]", "w__mubar_s_; vertical wind speed w dp/dt in in 0.1 Pa/s (micro-bar/s) ECMWF; [mubar/s]", "wind_speed__m_s_; wind speed m/s ECMWF; [m/s]", "wind_dir__deg_; wind direction in degrees ECMWF; [deg]", "h2o__ppmv_; total amount of water in ppmV ECMWF; [ppm]", "rh___; relative humidity in %, ECMWF relative to water when temperature is above 0 C, relative to ice when temperature is below 0 C; [%]", "z__0_1_g_m_; geopotential of aircraft in 0.1*g m ECMWF; [0.1*g_m]", "eq_latitude_deg_n_; equivalent latitude in degrees north from ECMWF; [degrees_north]", "cc; fraction of the area of the model grid cells covered by clouds (0 to 1) ECMWF; [0-1]", "clwc_g_kg_; cloud water contents in g/kg ECMWF; [g/kg]", "clic_g_kg_; cloud ice contents in g/kg ECMWF; [g/kg]", "p_strop__hpa_; pressure of static tropopause (WMO) in hPa ECMWF; [hPa]", "p_dtrop__hpa_; pressure of dynamical tropopause (3.5 PVU) in hPa ECMWF; [hPa]", "t_strop__k_; temperature of static tropopause (WMO) in K ECMWF; [K]", "t_dtrop__k_; temperature of dynamical tropopause (3.5 PVU) in K ECMWF; [K]", "pt_strop__k_; potential temperature of static tropopause (WMO) in K ECMWF; [K]", "pt_dtrop__k_; potential temperature of dynamical tropopause (3.5 PVU) in K ECMWF; [K]", "pv_strop__pvu_; PV of static tropopause (WMO) in PVU ECMWF; [PVU]", "z_strop__01grav_m_; geopotential of static tropopause (WMO) in 0.1*g m ECMWF; [0.1*g_m]", "z_dtrop__01grav_m_; geopotential of dynamical tropopause (3.5 PVU) in 0.1*g m ECMWF; [0.1*g_m]", "dp_strop__hpa_; pressure below static tropopause (WMO) in hPa ECMWF; [hPa]", "dp_dtrop__hpa_; pressure below dynamical tropopause (3.5 PVU) in hPa ECMWF; [hPa]", "20", "FileFormatVersionInfo: CARIBIC_NAmes_v02 standard # This file was created according to the conventions for CARIBIC NASA Ames data files, given by \'Info_Nasa_Ames_Format_02.zip\'.", "FlightNo: 223", "FlightRoute: CAN FRA", "DepartureAirport: Guangzhou # China, 15.2 masl", "ArrivalAirport: Frankfurt # Germany, 110.9 masl", "FileName: MS_20080226_223_CAN_FRA_10s_V36.txt", "ExceptionToConsider: no", "ChangeLog: V33 - SU file update, model data unchanged. / V34 - SU file update, model data unchanged. / V35 - SU file update, model data unchanged. / V36 - Header update, data unchanged.", "#", "Names of used input files:", "MA_20080226_223_CAN_FRA_10s_V05.txt", "Ac_20080226_223_CAN_FRA_10s_V03.txt", "AN_20080226_223_CAN_FRA_10s_V03.txt", "C2_20080226_223_CAN_FRA_10s_V26.txt", "CN_20080226_223_CAN_FRA_10s_V08.txt", "CO_20080226_223_CAN_FRA_10s_V25.txt", "HG_20080226_223_CAN_FRA_10s_V08.txt", "OM_20080226_223_CAN_FRA_10s_V04.txt", "WA_20080226_223_CAN_FRA_10s_V02.txt", "trackCLcl_08022618hr.dat; trackMLpd_08022618hr.dat; trackMLpd_08022618hr.dat_eqlat; trackTP_08022618hr.dat", "125", "data have been averaged over 10s intervals", "interval is reported as Midpoint UTC", "#", "comments from MA_20080226_223_CAN_FRA_10s_V05.txt", "# This file was created according to the conventions for CARIBIC NASA Ames data files, given by \'Info_Nasa_Ames_Format_02.zip\'.", "MA_ExceptionToConsider: no", "MA_ChangeLog: V04: current version from server; V05: converted to new CARIBIC NASA AMES format, data unchanged", "data have been averaged over 10s intervals", "interval is reported as Midpoint UTC", "Airport-Acronyms: BKK=\"Bangkok\"; BOG=\"Bogota\"; CAN=\"Guangzhou\"; CCS=\"Caracas\"; CPT=\"Cape Town\"; DEN=\"Denver\"; EZE=\"Buenos Aires\"; FRA=\"Frankfurt\"; GIG=\"Rio de Janeiro\"; GRU=\"Sao Paulo\"; ICN=\"Seoul\"; JNB=\"Johannesburg\"; KIX=\"Osaka\"; KUL=\"Kuala Lumpur\"; MAA=\"Chennai\"; MCO=\"Orlando\"; MNL=\"Manila\"; ORD=\"Chicago\"; SCL=\"Santiago de Chile\"; YVR=\"Vancouver\"; YYZ=\"Toronto\"", "#", "comments from Ac_20080226_223_CAN_FRA_10s_V03.txt", "# This file was created according to the conventions for CARIBIC NASA Ames data files, given by \'Info_Nasa_Ames_Format_02.zip\'.", "Ac_ExceptionToConsider: no", "Ac_ChangeLog: V02: current version from server; V03: converted to new CARIBIC NASA AMES format, data unchanged", "data have been averaged over 10-s intervals", "interval is reported as midpoint_UTC", "#", "comments from AN_20080226_223_CAN_FRA_10s_V03.txt", "# This file was created according to the conventions for CARIBIC NASA Ames data files, given by \'Info_Nasa_Ames_Format_02.zip\'.", "AN_ExceptionToConsider: no", "AN_ChangeLog: V02: current version from server; V03: converted to new CARIBIC NASA AMES format, data unchanged", "data have been averaged over 10-s intervals", "interval is reported as midpoint_UTC", "#", "comments from C2_20080226_223_CAN_FRA_10s_V26.txt", "# This file was created according to the conventions for CARIBIC NASA Ames data files, given by \'Info_Nasa_Ames_Format_02.zip\'.", "C2_ExceptionToConsider: no", "C2_ChangeLog: V26 - data recalculated from WMO X2007 calibration scale (was) to WMO X2019 (is)", "data binned to 10s intervals (arithmetic mean), \'VMISS\' excluded.", "time-stamp is in UTC seconds since midnight and denotes the middle of the 10s interval (lower boundary included, upper boundary excluded).", "Calibration gas high: 397.32 ppmV", "Calibration gas low: 369.90 ppmV", "Calibration gas value are recalibrated form LSCE Paris", "delete outliers are the value of sigma*stddev greater than the median about an interval", "median interval: 15", "sigma: 2.5", "#", "comments from CN_20080226_223_CAN_FRA_10s_V08.txt", "# This file was created according to the conventions for CARIBIC NASA Ames data files, given by \'Info_Nasa_Ames_Format_02.zip\'.", "CN_ExceptionToConsider: no", "CN_ChangeLog: V07: current version from server; V08: converted to new CARIBIC NASA AMES format, data unchanged", "Particle number concentrations are corrected for inlet transmission efficiency,", "sampling line transport efficiency, CPC counting efficiency, and coincidence in", "the CPC optics. Values are transferred to standard conditions (STP, 273.15 K, 1013.25 hPa).", "Uncertainties in the number concentrations are caused by the", "uncertainties in the CPC flow rate, the particle coincidence correction, the CPC", "counting efficiency, and the inlet transmission efficiency. The overall uncertainties", "are +/-15% for N12 and N18, and +/-40% for N4-12 concentrations larger than about", "500 particles/cm^3 STP. Note that N4-12 values (nucleation mode particles = freshly", "formed particles) arise from subtracting the readings of two particle counters and", "hence N4-12 can be negative, because of statistical fluctuations in the concentrations.", "Concerning data analysis, negative values should be treated as if there were", "no nucleation mode particles at all, i.e., as zero. On the other hand, particle", "number concentrations larger than about 140,000 particles/cm^3 STP for N12 and N18,", "and larger than about (180,000 - N12) particles/cm^3 STP for N4-12 are more uncertain", "because then the coincidence correction is responsible for a large fraction of the", "particle counts. Please note furthermore that if no correct values are indicated, i.e.", "\"9999999\", it is still possible that there are particle number concentration data", "available, however, they did not fulfill the data quality standards. Please contact", "the PI listed in line 2 of this header, if you need data for such periods.", "#", "comments from CO_20080226_223_CAN_FRA_10s_V25.txt", "# This file was created according to the conventions for CARIBIC NASA Ames data files, given by \'Info_Nasa_Ames_Format_02.zip\'.", "CO_ExceptionToConsider: no", "Date-Time start: 2008-02-26 16:46:28.640", "Date-Time end: 2008-02-27 04:44:58.740", "CO time resolution = 1Hz", "Calibration cycles = every 25 min", "there is a time correction between Master-PC and CO-PC", "t90 = 5 s", "time offset = 147.460 s", "time drift = 12.800 s", "#", "comments from HG_20080226_223_CAN_FRA_10s_V08.txt", "# This file was created according to the conventions for CARIBIC NASA Ames data files, given by \'Info_Nasa_Ames_Format_02.zip\'.", "HG_ExceptionToConsider: no", "HG_ChangeLog: V05: current version from server \\", "\\ V06: converted to new CARIBIC NASA AMES format, data unchanged \\", "\\ V07: data corrected for small Hg loads (see Slemr et al., AMTD, doi:doi:10.5194/amt-2015-376, 2016) \\", "\\ V08: another TGM data correction for small Hg loads", "DataSourceFile: Hg_Master_COO3_file_Corr_All_V2_2008.csv", "Original Hg resolution was 300 seconds,", "adapted to CARIBIC 10sec time scale, UTC is reported as mid-interval value", "calibration after every second flight,first flight calibrated, calibration for the second flight interpolated assuming linear drift", "no correction for the time difference between the instrument and master clock", "All data is given for STP conditions (0 degree Celsius, 1013.25 hPa)", "#", "comments from OM_20080226_223_CAN_FRA_10s_V04.txt", "# This file was created according to the conventions for CARIBIC NASA Ames data files, given by \'Info_Nasa_Ames_Format_02.zip\'.", "OM_ExceptionToConsider: no", "OM_ChangeLog: V02: current version from server; V03: converted to new CARIBIC NASA AMES format, data unchanged \\", "\\ V04: H_rel_TP deleted for ozone below 60ppb, H_rel_TP deleted south of 28 deg N, H_rel_TP values now down to -1.5km", "data have been averaged over 10 s intervals", "interval is reported as Midpoint_UTC", "#", "comments from WA_20080226_223_CAN_FRA_10s_V02.txt", "# This file was created according to the conventions for CARIBIC NASA Ames data files, given by \'Info_Nasa_Ames_Format_02.zip\'.", "WA_ExceptionToConsider: no", "WA_ChangeLog: V01: current version from server; V02: converted to new CARIBIC NASA AMES format, data unchanged", "data have been averaged over 10 s intervals", "interval is reported as Midpoint_UTC", "#", "this file was generated with caribic2dp v0.2.13, https://gitlab.kit.edu/FObersteiner/Caribic2dp", "#", "comments for trackCLcl_08022618hr.dat; trackMLpd_08022618hr.dat; trackMLpd_08022618hr.dat_eqlat; trackTP_08022618hr.dat", "1x1 degree gridded ECMWF model level data (analyses)", "have been interpolated linearly in longitude, latitude, log-pressure and time", "to the aircraft location by Peter van Velthoven (KNMI) with time resolution of 1 min", "followed by a second linear interpolation in time during MS file processing to meet 10s intervals.", "#", "The following line contains information about the lower detection limit of the instrument for the respective column: A number represents the lower detection limit (given in the units of the column, unaffected by the column\'s scaling factor). A column name refers to the column containing the lower detection limit. \"[]\" means that no lower detection limit is given.", "LowerDetectionLimit:\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t0.05\t0.05\t[]\t[]\t[]\t[]\t[]\t[]\t1\t1\t1\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]", "Size bin information: The next three lines contain (all values in nanometers): lower limit of the respective size channel; upper limit of the respective size channel; channel center of the respective size channel (it is calculated as square root(BinLowLimit*BinUpLimit)). \"[]\" means that no limit is given.", "BinUpLimit:\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]", "BinCenter:\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]", "BinLowLimit:\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]\t[]", "The following two lines contain names and units according to the \'NetCDF Climate and Forecast (CF) Metadata Convention\', see http://cfconventions.org/. Each entry (name or unit) corresponds to a certain column; the entry before the first tab belongs to the independent column.", "CF_StandardNames: time\tplatform_status_flag\tlatitude\tlongitude\tplatform_orientation\twind_speed\twind_to_direction\tplatform_pitch_angle\tplatform_roll_angle\tbarometric_altitude\tbarometric_altitude\tplatform_speed_wrt_air\tair_total_temperature\ttendency_of_barometric_altitude\tair_temperature\tplatform_attack_angle\tair_total_pressure\tplatform_vertical_speed_wrt_air\tplatform_speed_wrt_ground\ttime\tair_pressure\tair_potential_temperature\tbarometric_altitude\tsolar_zenith_angle\tstatus_flag\tmole_fraction_of_water_vapor_in_air\tmole_fraction_of_cloud_condensed_water_in_air\tmole_fraction_of_ozone_in_air\taltitude_wrt_tropopause\tmole_fraction_of_nitrogen_monoxide_in_air\tmole_fraction_of_total_reactive_nitrogen_in_air\tmass_concentration_of_total_gaseous_mercury_in_air\tmass_concentration_of_gaseous_elemental_mercury_in_air\tmole_fraction_of_carbon_monoxide_in_air\tmole_fraction_of_carbon_dioxide_in_air\tmole_fraction_of_methane_in_air\tmole_fraction_of_methane_in_air_standard_error\tmole_fraction_of_aceto_nitrile_in_air\tmole_fraction_of_acetone_in_air\tnumber_concentration_of_dried_aerosol_particles_at_stp_in_air\tnumber_concentration_of_dried_aerosol_particles_at_stp_in_air\tnumber_concentration_of_dried_aerosol_particles_at_stp_in_air\tnumber_concentration_of_dried_aerosol_particles_at_stp_in_air\tsurface_concentration_of_dried_aerosol_particles_at_stp_in_air\tvolume_concentration_of_dried_aerosol_particles_at_stp_in_air\tmass_concentration_of_dried_aerosol_particles_at_stp_in_air\tnumber_size_distribution_of_dried_aerosol_particles_at_stp_in_air\tnumber_size_distribution_of_dried_aerosol_particles_at_stp_in_air\tnumber_size_distribution_of_dried_aerosol_particles_at_stp_in_air\tnumber_size_distribution_of_dried_aerosol_particles_at_stp_in_air\tnumber_size_distribution_of_dried_aerosol_particles_at_stp_in_air\tnumber_size_distribution_of_dried_aerosol_particles_at_stp_in_air\tnumber_size_distribution_of_dried_aerosol_particles_at_stp_in_air\tnumber_size_distribution_of_dried_aerosol_particles_at_stp_in_air\tnumber_size_distribution_of_dried_aerosol_particles_at_stp_in_air\tnumber_size_distribution_of_dried_aerosol_particles_at_stp_in_air\tnumber_concentration_of_aerosol_particles_in_ambient_air\tnumber_concentration_of_non_volatile_aerosol_particles_in_ambient_air\tnumber_concentration_of_aerosol_particles_of_diameter_larger_than_250nm_in_ambient_air\tnumber_concentration_of_aerosol_particles_of_diameter_larger_than_1_um_in_ambient_air\tnumber_concentration_of_ambient_aerosol_particles_in_air\tmass_concentration_of_elemental_carbon_dry_aerosol_particles_in_air\tnumber_concentration_of_elemental_carbon_dry_aerosol_particles_in_air\tair_temperature\tertel_potential_vorticity\tair_potential_temperature\tequivalent_potential_temperature\tspecific_humidity\teastward_wind\tnorthward_wind\tupward_air_velocity\twind_speed\twind_from_direction\tmole_fraction_of_water_vapor_in_air\trelative_humidity\tgeopotential\tequivalent_latitude\tcloud_area_fraction\tmass_fraction_of_cloud_liquid_water_in_air\tmass_fraction_of_cloud_ice_in_air\tthermal_tropopause_air_pressure\tdynamic_tropopause_air_pressure\tthermal_tropopause_air_temperature\tdynamic_tropopause_air_temperature\tthermal_tropopause_air_potential_temperature\tdynamic_tropopause_air_potential_temperature\tthermal_tropopause_potential_vorticity\tthermal_tropopause_geopotential\tdynamic_tropopause_geopotential\tdifference_of_air_pressure_from_thermal_tropopause\tdifference_of_air_pressure_from_dynamic_tropopause", "CF_Units: [s]\t[1]\t[degree_north]\t[degree_east]\t[degree]\t[(1852/3600) m s-1]\t[degree]\t[degree]\t[degree]\t[0.3048 m]\t[0.3048 m]\t[(1852/3600) m s-1]\t[degree_C]\t[0.3048/60 m s-1]\t[degree_C]\t[degree]\t[100 Pa]\t[0.3048/60 m s-1]\t[(1852/3600) m s-1]\t[d]\t[100 Pa]\t[K]\t[m]\t[degree]\t[1]\t[1e-6]\t[1e-6]\t[1e-9]\t[1e3 m]\t[1e-9]\t[1e-9]\t[1e-12 kg m-3]\t[1e-12 kg m-3]\t[1e-9]\t[1e-6]\t[1e-9]\t[1e-9]\t[1e-12]\t[1e-12]\t[1e6 m-3]\t[1e6 m-3]\t[1e6 m-3]\t[1e6 m-3]\t[1e-6 m-3]\t[1e-12]\t[1e-9 kg m-3]\t[1e6 m-3]\t[1e6 m-3]\t[1e6 m-3]\t[1e6 m-3]\t[1e6 m-3]\t[1e6 m-3]\t[1e6 m-3]\t[1e6 m-3]\t[1e6 m-3]\t[1e6 m-3]\t[1e6 m-3]\t[1e6 m-3]\t[1e6 m-3]\t[1e6 m-3]\t[1e6 m-3]\t[1e-12 kg m-3]\t[1e6 m-3]\t[K]\t[1e-6 K m2 kg-1 s-1]\t[K]\t[K]\t[1e-3 kg kg-1]\t[m s-1]\t[m s-1]\t[0.1 Pa s-1]\t[m/s]\t[degree]\t[1e-6]\t[%]\t[0.981 m2 s-2]\t[degree_north]\t[1]\t[1e-3 kg kg-1]\t[1e-3 kg kg-1]\t[100 Pa]\t[100 Pa]\t[K]\t[K]\t[K]\t[K]\t[1e-6 K m2 kg-1 s-1]\t[0.981 m2 s-2]\t[0.981 m2 s-2]\t[100 Pa]\t[100 Pa]", "The following four lines contain: Start date like in line 7 (formatted as YYYYMMDD), followed by the scaling factors like in line 11; Line number containing the KeyLabel \'ExceptionToConsider\' (0 if no such exception is mentioned), followed by the VMISS-values like in line 12; Units like in lines 13ff; Column headers.", "20080226\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1\t1", "0\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999\t9999999", "[s]\t[1]\t[degrees]\t[degrees]\t[degrees]\t[knots]\t[degrees]\t[degrees]\t[degrees]\t[feet]\t[feet]\t[knots]\t[degC]\t[feet/min]\t[degC]\t[degrees]\t[mbar]\t[feet/min]\t[knots]\t[d]\t[mbar]\t[K]\t[m]\t[deg]\t[1-3]\t[ppm]\t[ppm]\t[ppb]\t[km]\t[ppb]\t[ppb]\t[ng/m^3_STP]\t[ng/m^3_STP]\t[ppb]\t[ppm]\t[ppb]\t[ppb]\t[ppt]\t[ppt]\t[1/cm^3_STP]\t[1/cm^3_STP]\t[1/cm^3_STP]\t[1/cm^3_STP]\t[micrometer^2/cm^3_STP]\t[micrometer^3/cm^3_STP]\t[microgram/m^3_STP]\t[1/cm^3_STP]\t[1/cm^3_STP]\t[1/cm^3_STP]\t[1/cm^3_STP]\t[1/cm^3_STP]\t[1/cm^3_STP]\t[1/cm^3_STP]\t[1/cm^3_STP]\t[1/cm^3_STP]\t[1/cm^3_STP]\t[1e6 m-3]\t[1e6 m-3]\t[1e6 m-3]\t[1e6 m-3]\t[1/cm^3_STP]\t[ng/m^3_STP]\t[1/cm^3_STP]\t[K]\t[PVU]\t[K]\t[K]\t[g/kg]\t[m/s]\t[m/s]\t[mubar/s]\t[m/s]\t[deg]\t[ppm]\t[%]\t[0.1*g_m]\t[degrees_north]\t[0-1]\t[g/kg]\t[g/kg]\t[hPa]\t[hPa]\t[K]\t[K]\t[K]\t[K]\t[PVU]\t[0.1*g_m]\t[0.1*g_m]\t[hPa]\t[hPa]", "TimeCRef\tFlightPhase\tPosLat\tPosLong\tTrueHead\tWindSpeed\tWindDirTr\tPitchAng\tRollAng\tStdAltitu\tBaroAltit\tTrAirSpeed\tToAirTmp\tAltitRate\tStcAirTmp\tAngOAttck\tTotPres\tVertSpeed\tGndSpeed\tLocalTime\tpstatic\tTpot\tAltitude\tSZA\tH2Ostatus\tH2Ogas\tH2Ocloud\tOzone\tH_rel_TP\tNO\tNOy\tTGM\tGEM\tCO\tCO2\tCH4\tCH4_Err\tACN\tACE\tN4_12\tN12\tN18\tPNumC\tPSurfC\tPVolC\tPMassC\tPSizeD01\tPSizeD02\tPSizeD03\tPSizeD04\tPSizeD05\tPSizeD06\tPSizeD07\tPSizeD08\tPSizeD09\tPSizeD10\tcpc1_amb_ncm3\tcpc2_amb_ncm3\topc1_amb_ncm3\topc12_amb_ncm3\tSC_Conc\tBC_Mass_Conc\tBC_Conc\ttemp__k_\tpv__pvu_\tpot_temp__k_\teq_pott_temp__k_\tspec_hum__g_kg_\tu__m_s_\tv__m_s_\tw__mubar_s_\twind_speed__m_s_\twind_dir__deg_\th2o__ppmv_\trh___\tz__0_1_g_m_\teq_latitude_deg_n_\tcc\tclwc_g_kg_\tclic_g_kg_\tp_strop__hpa_\tp_dtrop__hpa_\tt_strop__k_\tt_dtrop__k_\tpt_strop__k_\tpt_dtrop__k_\tpv_strop__pvu_\tz_strop__01grav_m_\tz_dtrop__01grav_m_\tdp_strop__hpa_\tdp_dtrop__hpa_"; :title = "IAGOS-CARIBIC netCDF4 data file"; :date_created = "2024-01-12T10:22:00Z"; :summary = "merged IAGOS-CARIBIC data (CARIBIC-2), on a 10s grid"; :keywords = "greenhouse gases, aerosols, trace gases, aircraft observations, in-situ, monitoring, long-term"; :conventions = "CF-1.10"; :mission = "IAGOS-CARIBIC (CARIBIC-2), http://www.caribic-atmospheric.com/"; :data_description = "All continuous measurements (10s averages) for IAGOS-CARIBIC (onboard Airbus A340-600 HE of Lufthansa)"; :data_institute = "Institute of Meteorology and Climate Research (IMK), Karlsruhe Institute of Technology (KIT), 76021 Karlsruhe, P.O. Box 3640, Germany"; :data_owners = "A. Zahn; H. Boenisch; T. Gehrlein; F. Obersteiner; contact: andreas.zahn@kit.edu"; :license = "https://creativecommons.org/licenses/by/4.0/deed.en"; :doi = "10.5281/zenodo.8188548"; :format_date = "2024-01-11"; :format_version = "0.6"; :history = "Converted from NASA Ames format with na_to_nc4 from caribic2dp.convert_caribic_na_nc4 module. Might contain only a subset of the parameters from the original NASA Ames file. caribic2dp 0.2.25, https://gitlab.kit.edu/FObersteiner/Caribic2dp"; :ivar_C_format = "%d"; :geospatial_bounds_crs = "EPSG:4326"; :geospatial_bounds_vertical_crs = "EPSG:5829"; :geospatial_lat_min = 23.449f; // float :geospatial_lat_max = 53.825f; // float :geospatial_lon_min = 8.716f; // float :geospatial_lon_max = 113.379f; // float :geospatial_lat_units = "degree_north"; :geospatial_lon_units = "degree_east"; :geospatial_vertical_min = 1452.0f; // float :geospatial_vertical_max = 38574.0f; // float :geospatial_vertical_positive = "up"; :geospatial_vertical_units = "m"; :time_coverage_start = "2008-02-26T16:45:45"; :time_coverage_end = "2008-02-27T04:44:55"; }