Attributes { HDF5_ROOT_GROUP { String Dataset "number_of_wavelengths", "number_of_pixels", "number_of_liquid_radii", "number_of_quality_assurance_bytes", "number_of_reflectance_bands", "number_of_ice_radii", "number_of_scans", "number_of_lines", "number_of_failure_metrics", "number_of_cloud_mask_bytes"; geophysical_data { String Dataset "Cloud_Optical_Thickness_Uncertainty_16", "Cloud_Effective_Radius_1621", "Cloud_Optical_Thickness_37", "Cloud_Water_Path_PCL", "Cloud_Effective_Emissivity", "Retrieval_Failure_Metric", "Cloud_Top_Height_Uncertainty", "Cloud_Mask", "Cloud_Phase_Cloud_Top_Properties", "Retrieval_Failure_Metric_16", "Cloud_Top_Temperature_Uncertainty", "Cloud_Optical_Thickness_1621", "Cloud_Water_Path_1621_PCL", "Cloud_Effective_Radius_Uncertainty", "Quality_Assurance", "Cloud_Water_Path", "Cloud_Top_Height", "Cloud_Effective_Radius_37_PCL", "Cloud_Effective_Radius_16_PCL", "Cloud_Effective_Radius_Uncertainty_16", "IRW_Low_Cloud_Temperature_From_COP", "Cloud_Effective_Radius_1621_PCL", "Cloud_Top_Pressure", "Cloud_Top_Temperature", "Cloud_Optical_Thickness_1621_PCL", "Cloud_Water_Path_37", "Cloud_Water_Path_16", "Cloud_Optical_Thickness_37_PCL", "Cloud_Effective_Radius_PCL", "Cloud_Optical_Thickness_PCL", "Cloud_Optical_Thickness_Uncertainty_1621", "Cloud_Water_Path_Uncertainty_16", "Cloud_Phase_Optical_Properties", "Cloud_Effective_Radius_Uncertainty_37", "Cloud_Effective_Radius_37", "Cloud_Effective_Radius_Uncertainty_1621", "Atm_Corr_Refl", "Cloud_Water_Path_37_PCL", "Cloud_Water_Path_16_PCL", "Cloud_Water_Path_1621", "Retrieval_Failure_Metric_37", "Cloud_Optical_Thickness_Uncertainty_37", "Cloud_Optical_Thickness_16", "Cloud_Top_Pressure_Uncertainty", "Cloud_Effective_Radius", "Cloud_Optical_Thickness_Uncertainty", "Cloud_Optical_Thickness", "Cloud_Water_Path_Uncertainty_37", "Cloud_Water_Path_Uncertainty", "Cloud_Water_Path_Uncertainty_1621", "Cloud_Optical_Thickness_16_PCL", "Retrieval_Failure_Metric_1621", "Cloud_Effective_Radius_16", "Surface_Pressure"; } geolocation_data { String Dataset "longitude", "solar_zenith", "sensor_zenith", "latitude", "sensor_azimuth", "solar_azimuth"; } scan_line_attributes { String Dataset "scan_start_time"; } cloud_model_data { String Dataset "Single_Scatter_Albedo_Ice", "Asymmetry_Parameter_Ice", "Extinction_Efficiency_Ice", "Asymmetry_Parameter_Liq", "Single_Scatter_Albedo_Liq", "Extinction_Efficiency_Liq"; } } H5_GLOBAL { String HDF5_OBJ_FULLPATH "H5_GLOBAL"; String _NCProperties "version=1|netcdflibversion=4.4.1|hdf5libversion=1.8.17"; String processing_level "L2"; String processing_version "v1.0"; String cdm_data_type "swath"; String keywords_vocabulary "NASA Global Change Master Directory (GCMD) Science Keywords"; String license "http://science.nasa.gov/earth-science/earth-science-data/data-information-policy/"; String stdname_vocabulary "NetCDF Climate and Forecast (CF) Metadata Convention"; String naming_authority "gov.nasa.gsfc.sci.atmos"; String StartTime "2021-04-27 04:50:00"; String EndTime "2021-04-27 04:55:00"; String Conventions "CF-1.6, ACDD-1.3"; String instrument "MODIS"; String platform "Aqua"; String creator_name "NASA VIIRS Atmosphere SIPS"; String creator_email "sips.support@ssec.wisc.edu"; String creator_url "https://sips.ssec.wisc.edu"; String project "NASA VIIRS Atmosphere SIPS"; String DayNightFlag "Both"; Float64 SouthBoundingCoordinate -74.556539188339897; Float64 NorthBoundingCoordinate -51.4587338653253; Float64 EastBoundingCoordinate -178.07068449745; Float64 WestBoundingCoordinate 120.33498231774701; String history ""; String source "CLDIR_L2_MODIS 1.0, CLDMSK_L2_MODIS 1.0, chimaera 20190628-1, chimaera_staticdata 20190606-1, mod_prra 20171115-1, modis_destripe 0.2012.11.07"; String date_created "2021-04-28T02:00:35Z"; String product_name "CLDPROP_L2_MODIS_Aqua.A2021117.0450.011.2021118020255.nc"; String LocalGranuleID "CLDPROP_L2_MODIS_Aqua.A2021117.0450.011.2021118020255.nc"; String ShortName "CLDPROP_L2_MODIS_Aqua"; String product_version "1.1.0"; String AlgorithmType "OPS"; String identifier_product_doi "10.5067/MODIS/CLDPROP_L2_MODIS_Aqua.011"; String identifier_product_doi_authority "http://dx.doi.org"; String input_files "MYD021KM.A2021117.0450.061.20210428020236.hdf,MYD03.A2021117.0450.061.2021117200847.hdf,CLDMSK_L2_MODIS_Aqua.A2021117.0450.001.2021118015847.nc,CLDIR_L2_MODIS_Aqua.A2021117.0450.001.2021118020224.hdf"; String ancillary_files "gdas1.PGrbF00.210427.00z,gdas1.PGrbF00.210427.06z,NISE_SSMISF18_20210427.HDFEOS,eng.210427,MCD43GF_wsa_Band1_113_2016_V006.hdf,MCD43GF_wsa_Band2_113_2016_V006.hdf,MCD43GF_wsa_Band5_113_2016_V006.hdf,MCD43GF_wsa_Band6_113_2016_V006.hdf,MCD43GF_wsa_Band7_113_2016_V006.hdf"; String DataCenterId "UWI-MAD/SSEC/ASIPS"; String creator_institution "Space Science & Engineering Center, University of Wisconsin - Madison"; String publisher_name "LAADS"; String publisher_url "https://ladsweb.modaps.eosdis.nasa.gov/"; String publisher_email "modis-ops@lists.nasa.gov"; String publisher_institution "NASA Level-1 and Atmosphere Archive & Distribution System"; Float64 GRingPointLatitude -65.4674395698312, -74.351991010819802, -56.241371925924398, -51.244319570512403; Float64 GRingPointLongitude -178.06885142917801, 119.168944938792, 122.917092771279, 159.660106590738; String geospatial_lat_units "degrees_north"; String geospatial_lon_units "degrees_east"; Float64 geospatial_lat_min -74.556539188339897; Float64 geospatial_lat_max -51.4587338653253; Float64 geospatial_lon_min 120.33498231774701; Float64 geospatial_lon_max -178.07068449745; String time_coverage_start "2021-04-27T04:50:00.000Z"; String time_coverage_end "2021-04-27T04:55:00.000Z"; String startDirection "Ascending"; String endDirection "Ascending"; String xmlmetadata " 1.0 UWI-MAD/SSEC/ASIPS CLDPROP_L2_MODIS_Aqua 11 no further reprocessing anticipated CLDPROP_L2_MODIS_Aqua.A2021117.0450.011.2021118020255.nc Both 2021-04-28 02:02:55.000000 11 20190628-1 04:55:00.000000 2021-04-27 04:50:00.000000 2021-04-27 120.334982317747 -51.4587338653253 -178.07068449745 -74.5565391883399 100961 Aqua MODIS MODIS MYD021KM.A2021117.0450.061.20210428020236.hdf MYD03.A2021117.0450.061.2021117200847.hdf CLDMSK_L2_MODIS_Aqua.A2021117.0450.001.2021118015847.nc CLDIR_L2_MODIS_Aqua.A2021117.0450.001.2021118020224.hdf GDAS_0ZF gdas1.PGrbF00.210427.00z GDAS_0ZF gdas1.PGrbF00.210427.06z NISE NISE_SSMISF18_20210427.HDFEOS SEA_ICE eng.210427 MCD43GF MCD43GF_wsa_Band1_113_2016_V006.hdf MCD43GF MCD43GF_wsa_Band2_113_2016_V006.hdf MCD43GF MCD43GF_wsa_Band5_113_2016_V006.hdf MCD43GF MCD43GF_wsa_Band6_113_2016_V006.hdf MCD43GF MCD43GF_wsa_Band7_113_2016_V006.hdf "; String title "Aqua MODIS Cloud Top, Optical and Microphysical Properties (CLDPROP_L2_MODIS_Aqua)"; String l2_luts "MODIS_Ice_library.hdf,lambertian_msr_water_v6.MODIS.1.1.265.2017254140756.hdf,MODIS_Ice_library_ws3.hdf,MODIS_Ice_library_ws3sd.hdf,MODIS_Ice_library_ws7.hdf,MODIS_Ice_library_ws7sd.hdf,MODIS_Ice_library_ws15.hdf,MODIS_Ice_library_ws15sd.hdf,ocean_msr_water_wspeed_3_v6.MODIS.1.1.265.2017254145924.hdf,ocean_stddev_water_wspeed_3_v6.MODIS.1.1.265.2017254151144.hdf,ocean_msr_water_wspeed_7_v6.MODIS.1.1.265.2017254145924.hdf,ocean_stddev_water_wspeed_7_v6.MODIS.1.1.265.2017254151144.hdf,ocean_msr_water_wspeed_15_v6.MODIS.1.1.265.2017254145924.hdf,ocean_stddev_water_wspeed_15_v6.MODIS.1.1.265.2017254151144.hdf,IceAndWaterPhaseFunctionData_v6.MODIS.1.1.265.2017249172418.hdf,IGBP.EcoMap.NtoS.2004.149.v004.hdf,AlbSnwSts.ByNISE.W90.D90.WS.Hemi.2000-2004.YrAvg.hdf,modisdet.dry.101.big_end,modisdet.ozo.101.big_end,modisdet.wco.101.big_end,modisdet.wtl.101.big_end,modisdet.wts.101.big_end,global_emiss_intABI_2005001.hdf"; String CHIMAERA_version "6.1.5.7"; String long_name "MODIS/Aqua Cloud Properties 5-min L2 Swath 1km"; } /number_of_wavelengths { String HDF5_OBJ_FULLPATH "/number_of_wavelengths"; String CLASS "DIMENSION_SCALE"; String NAME "This is a netCDF dimension but not a netCDF variable. 7"; } /number_of_pixels { String HDF5_OBJ_FULLPATH "/number_of_pixels"; String CLASS "DIMENSION_SCALE"; String NAME "This is a netCDF dimension but not a netCDF variable. 1354"; } /geophysical_data/ { String HDF5_OBJ_FULLPATH "/geophysical_data/"; } /geophysical_data/Cloud_Optical_Thickness_Uncertainty_16 { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Optical_Thickness_Uncertainty_16"; String long_name "Cloud Optical Thickness from 1.6 um Relative Uncertainty (Percent) from both best points and points identified as cloud edge"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 20000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "percent"; } /geophysical_data/Cloud_Effective_Radius_1621 { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Effective_Radius_1621"; String long_name "Cloud Particle Effective Radius two-channel retrieval using 2.2 um and 1.6um from best points: not failed in any way, not marked for clear sky restoral"; Int16 _FillValue -9999; Int16 valid_min 400; Int16 valid_max 6000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "micron"; } /geophysical_data/Cloud_Optical_Thickness_37 { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Optical_Thickness_37"; String long_name "Cloud Optical Thickness two-channel retrieval using 3.7um and either 0.65 um, 0.86 um or 1.24um (specified in Quality_Assurance) from best points: not failed in any way, not marked for clear sky restoral"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 15000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "none"; } /geophysical_data/Cloud_Water_Path_PCL { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Water_Path_PCL"; String long_name "Column Water Path two-channel retrieval using 2.2 um and either 0.65 um, 0.86 um or 1.24um (specified in Quality_Assurance) from points identified as partly cloudy from cloud edges"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 10000; String units "g/m^2"; } /geophysical_data/Cloud_Effective_Emissivity { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Effective_Emissivity"; String long_name "Cloud Effective Emissivity from NOAA CLAVR-x AWG algorithm at 11µm"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 100; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.; String units "none"; } /geophysical_data/Retrieval_Failure_Metric { String HDF5_OBJ_FULLPATH "/geophysical_data/Retrieval_Failure_Metric"; String long_name "Retrievals and other information for points that failed to retrieve via standard solution logic for retrieval using 2.2 um and either 0.65um, 0.86um or 1.2um (specified in Quality_Assurance)"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 20000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "plane 1-none, plane 2-microns, plane 3-percent"; String description01 "The individual planes in this SDS are set to contain the following: "; String description02 "1 -- Cloud Optical Thickness "; String description03 "2 -- Cloud Effective Radius "; String description04 "3 -- Relative distance of failed retrieval from the library space as "; String description05 " percentage of reflectance "; } /geophysical_data/Cloud_Top_Height_Uncertainty { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Top_Height_Uncertainty"; String long_name "Cloud Top Height uncertainty from NOAA CLAVR-x AWG algorithm"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 20000; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.; String units "percent"; } /geophysical_data/Cloud_Mask { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Mask"; String long_name "3-d byte arrary from which cloud mask information can be extracted"; Int16 _FillValue 0; Int32 valid_min 1; Int32 valid_max 255; String units "none"; String description01 " "; String description02 " "; String description03 " "; String description04 "Bit fields within each byte are numbered from the left: "; String description05 "7, 6, 5, 4, 3, 2, 1, 0. "; String description06 "The left-most bit (bit 7) is the most significant bit. "; String description07 "The right-most bit (bit 0) is the least significant bit. "; String description08 " "; String description09 "Bit Field Description Key "; String description10 "--------- ----------- --- "; String description11 " "; String description12 " Byte 0 ----------------------------------------------------------- "; String description13 " "; String description14 "0 Cloud Mask Flag 0 = Not determined "; String description15 " 1 = Determined "; String description16 " "; String description17 "2, 1 Unobstructed FOV Quality Flag 00 = Cloudy "; String description18 " 01 = Uncertain "; String description19 " 10 = Probably Clear "; String description20 " 11 = Confident Clear "; String description21 " PROCESSING PATH "; String description22 " --------------- "; String description23 "3 Day or Night Path 0 = Night / 1 = Day "; String description24 "4 Sunglint Path 0 = Yes / 1 = No "; String description25 "5 Snow/Ice Background Path 0 = Yes / 1 = No "; String description26 "7, 6 Land or Water Path 00 = Water "; String description27 " 01 = Coastal "; String description28 " 10 = Desert "; String description29 " 11 = Land "; String description30 " Byte 1 ----------------------------------------------------------- "; String description31 " "; String description32 "0 High Cloud Test 1.38um result 0 = No / Not applied "; String description33 " 1 = Might have cloud "; String description34 "1 High Cloud Test 1.38um applied? 0 = Not applied "; String description35 " 1 = Applied "; String description36 "2 Visible Reflectance Threshold test result 0 = No / Not applied "; String description37 " 1 = Might have cloud "; String description38 "3 Visible Reflectance Threshold test applied? 0 = Not applied "; String description39 " 1 = Applied "; String description40 "4 R0.86 / R0.65um test result 0 = No / Not applied "; String description41 " 1 = Might have cloud "; String description42 "5 R0.86 / R0.65um test applied? 0 = Not applied "; String description43 " 1 = Applied "; } /geophysical_data/Cloud_Phase_Cloud_Top_Properties { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Phase_Cloud_Top_Properties"; String long_name "Cloud Phase Determination from NOAA CLAVR-x AWG algorithm"; Int16 _FillValue 127; Int32 valid_min 0; Int32 valid_max 6; String units "none"; String description01 " The values in this SDS indicate the following cloud phase: "; String description02 " 0 -- cloud free "; String description03 " 1 -- water cloud "; String description04 " 2 -- ice cloud "; String description05 " 3 -- mixed phase cloud "; String description06 " 6 -- undetermined phase cloud "; } /geophysical_data/Retrieval_Failure_Metric_16 { String HDF5_OBJ_FULLPATH "/geophysical_data/Retrieval_Failure_Metric_16"; String long_name "Retrievals and other information for points that failed to retrieve via standard solution logic for retrieval using 1.6um and either 0.65um, 0.86um or 1.2um (specified in Quality_Assurance)"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 20000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "plane 1-none, plane 2-microns, plane 3-percent"; String description01 "The individual planes in this SDS are set to contain the following: "; String description02 "1 -- Cloud Optical Thickness "; String description03 "2 -- Cloud Effective Radius "; String description04 "3 -- Relative distance of failed retrieval from the library space as "; String description05 " percentage of reflectance "; } /geophysical_data/Cloud_Top_Temperature_Uncertainty { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Top_Temperature_Uncertainty"; String long_name "Cloud Top Temperature uncertainty from NOAA CLAVR-x AWG algorithm"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 20000; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.; String units "percent"; } /geophysical_data/Cloud_Optical_Thickness_1621 { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Optical_Thickness_1621"; String long_name "Cloud Optical Thickness two-channel retrieval using 2.2 um and 1.6um from best points: not failed in any way, not marked for clear sky restoral"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 15000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "none"; } /geophysical_data/Cloud_Water_Path_1621_PCL { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Water_Path_1621_PCL"; String long_name "Column Water Path two-channel retrieval using 2.2 um and 1.6um from points identified as partly cloudy from cloud edges"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 10000; String units "g/m^2"; } /geophysical_data/Cloud_Effective_Radius_Uncertainty { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Effective_Radius_Uncertainty"; String long_name "Cloud Effective Particle Radius from 2.2 um Relative Uncertainty (Percent) from both best points and points identified as cloud edge"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 20000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "percent"; } /geophysical_data/Quality_Assurance { String HDF5_OBJ_FULLPATH "/geophysical_data/Quality_Assurance"; String long_name "3-D byte array from which much info about quality (QA) of retrieval data can be extracted"; Int16 _FillValue 0; Int32 valid_min 1; Int32 valid_max 255; String units "none"; String description01 " "; String description02 " "; String description03 "Quality Assurance reports on Cloud Optical Properties "; String description04 "algorithm performance. Refer to MOD_PR06OD User Documentation and the "; String description05 "MODIS atmosphere QA plan for complete descriptions and coding examples. "; String description06 " "; String description07 " Bit fields within each byte are numbered from the left: "; String description08 " 7, 6, 5, 4, 3, 2, 1, 0. "; String description09 " The left-most bit (bit 7) is the most significant bit. "; String description10 " The right-most bit (bit 0) is the least significant bit. "; String description11 " "; String description12 " "; String description13 " "; String description14 " "; String description15 " "; String description16 " Bit Field Description Key "; String description17 " --------- ----------- --- "; String description18 " "; String description19 " Byte 0 ----------------------------------------------------------------- "; String description20 " 0 VNSWIR-2.1 Retrieval Spectral Data QA 0 = Some or all spectral data not available "; String description21 " 1 = All spectral data available "; String description22 " 2,1 VNSWIR-2.1 Retrieval Confidence QA 00 = No confidence "; String description23 " 01 = Marginal "; String description24 " 10 = Good "; String description25 " 11 = Very Good "; String description26 " 3 VNSWIR-2.1 Retrieval Outcome 0 = Failed/No attempt "; String description27 " 1 = Successful "; String description28 " 4 1.6-2.1 Retrieval Spectral Data QA 0 = Some or all spectral data not available "; String description29 " 1 = All spectral data available "; String description30 " 6,5 1.6-2.1 Retrieval Confidence QA 00 = No confidence "; String description31 " 01 = Marginal "; String description32 " 10 = Good "; String description33 " 11 = Very Good "; String description34 " 7 1.6-2.1 Retrieval Outcome 0 = Failed/No attempt "; String description35 " 1 = Successful "; String description36 " Byte 1 ----------------------------------------------------------------- "; String description37 " 2,1,0 Primary retrieval processing path 000 = No Cloud Mask "; String description38 " 001 = No Cloud "; String description39 " 010 = Water Cloud "; String description40 " 011 = Ice Cloud "; String description41 " 100 = Unknown Cloud "; String description42 " 3 Rayleigh Correction 0 = No Correction "; String description43 " 1 = Correction "; String description44 " 5,4 Band Used for Optical Thickness Retrieval "; String description45 " 00 = No attempt "; String description46 " 01 = .645 micron "; String description47 " 10 = .858 micron "; String description48 " 11 = 1.24 micron "; String description49 " 6 VNSWIR-2.1 Optical thickness out of bounds 0 = no "; String description50 " 1 = yes "; String description51 " 7 VIIRS Bow-tie pixel indicator 0 = Normal Pixel "; String description52 " 1 = Bow-Tie pixel "; String description53 " Byte 2 ----------------------------------------------------------------- "; String description54 " 1,0 Clear Sky Restoral Type QA "; String description55 " 00 = Not Restored "; String description56 " 01 = Restored Via Edge detection "; String description57 " 10 = Restored Via Spatial Variance "; String description58 " 11 = Restored using high resolution data "; String description59 " 2 VNSWIR-1.6 Retrieval Outcome 0 = Failed/No attempt "; String description60 " 1 = Successful "; String description61 " 3 VNSWIR-1.6 PCL Retrieval Outcome 0 = Failed/No attempt "; String description62 " 1 = Successful "; String description63 " 4 VNSWIR-3.7 Retrieval Outcome 0 = Failed/No attempt "; String description64 " 1 = Successful "; String description65 " 5 VNSWIR-3.7 PCL Retrieval Outcome 0 = Failed/No attempt "; String description66 " 1 = Successful "; String description67 " 6 1.6-2.1 PCL Retrieval Outcome 0 = Failed/No attempt "; String description68 " 1 = Successful "; String description69 " 7 VNSWIR-2.1 PCL Retrieval Outcome 0 = Failed/No attempt "; String description70 " 1 = Successful "; String description71 " Byte 3 ----------------------------------------------------------------- "; String description72 " 1,0 Earth surface type used in optical thickness retrieval "; String description73 " 00 = ice-free ocean "; String description74 " 01 = ice-covered ocean "; String description75 " 10 = snow-free land "; String description76 " 11 = snow-covered land "; String description77 " 2 VNSWIR-1.6 Retrieval Spectral Data QA 0 = Some or all spectral data not available "; String description78 " 1 = All spectral data available "; String description79 " 3 VNSWIR-3.7 Retrieval Spectral Data QA 0 = Some or all spectral data not available "; String description80 " 1 = All spectral data available "; String description81 " 4 Cloud top pressure abnormal 0 = no "; String description82 " 1 = yes "; } /geophysical_data/Cloud_Water_Path { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Water_Path"; String long_name "Column Water Path two-channel retrieval using 2.2 um and either 0.65 um, 0.86 um or 1.24um (specified in Quality_Assurance) from best points: not failed in any way, not marked for clear sky restoral"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 10000; String units "g/m^2"; } /geophysical_data/Cloud_Top_Height { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Top_Height"; String long_name "Cloud Top Height from NOAA CLAVR-x AWG algorithm"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 18000; String units "m"; } /geophysical_data/Cloud_Effective_Radius_37_PCL { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Effective_Radius_37_PCL"; String long_name "Cloud Particle Effective Radius two-channel retrieval using 3.7um and either 0.65 um, 0.86 um or 1.24um (specified in Quality_Assurance) from points identified as partly cloudy from cloud edges"; Int16 _FillValue -9999; Int16 valid_min 400; Int16 valid_max 6000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "micron"; } /geophysical_data/Cloud_Effective_Radius_16_PCL { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Effective_Radius_16_PCL"; String long_name "Cloud Particle Effective Radius two-channel retrieval using 1.6um and either 0.65 um, 0.86 um or 1.24um (specified in Quality_Assurance) from points identified as partly cloudy from cloud edges"; Int16 _FillValue -9999; Int16 valid_min 400; Int16 valid_max 6000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "micron"; } /geophysical_data/Cloud_Effective_Radius_Uncertainty_16 { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Effective_Radius_Uncertainty_16"; String long_name "Cloud Effective Particle Radius from 1.6 um Relative Uncertainty (Percent) from both best points and points identified as cloud edge"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 20000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "percent"; } /geophysical_data/IRW_Low_Cloud_Temperature_From_COP { String HDF5_OBJ_FULLPATH "/geophysical_data/IRW_Low_Cloud_Temperature_From_COP"; String long_name "Low Cloud Temperature from IR Window retrieval using cloud emissivity based on cloud optical thickness"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 32767; Float64 scale_factor 0.0079349996522068977; Float64 add_offset 100.; String units "K"; } /geophysical_data/Cloud_Effective_Radius_1621_PCL { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Effective_Radius_1621_PCL"; String long_name "Cloud Particle Effective Radius two-channel retrieval using 2.2 um and 1.6um from points identified as partly cloudy from cloud edges"; Int16 _FillValue -9999; Int16 valid_min 400; Int16 valid_max 6000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "micron"; } /geophysical_data/Cloud_Top_Pressure { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Top_Pressure"; String long_name "Cloud Top Pressure from NOAA CLAVR-x AWG algorithm"; Int16 _FillValue -9999; Int16 valid_min 10; Int16 valid_max 11000; Float64 scale_factor 0.10000000149011612; Float64 add_offset 0.; String units "mb"; } /geophysical_data/Cloud_Top_Temperature { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Top_Temperature"; String long_name "Cloud Top Temperature from NOAA CLAVR-x AWG algorithm"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 32767; Float64 scale_factor 0.0079349996522068977; Float64 add_offset 100.; String units "K"; } /geophysical_data/Cloud_Optical_Thickness_1621_PCL { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Optical_Thickness_1621_PCL"; String long_name "Cloud Optical Thickness two-channel retrieval using 2.2 um and 1.6um from points identified as partly cloudy from cloud edges"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 15000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "none"; } /geophysical_data/Cloud_Water_Path_37 { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Water_Path_37"; String long_name "Column Water Path two-channel retrieval using 3.7um and either 0.65 um, 0.86 um or 1.24um (specified in Quality_Assurance) from best points: not failed in any way, not marked for clear sky restoral"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 10000; String units "g/m^2"; } /geophysical_data/Cloud_Water_Path_16 { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Water_Path_16"; String long_name "Column Water Path two-channel retrieval using 1.6um and either 0.65 um, 0.86 um or 1.24um (specified in Quality_Assurance) from best points: not failed in any way, not marked for clear sky restoral"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 10000; String units "g/m^2"; } /geophysical_data/Cloud_Optical_Thickness_37_PCL { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Optical_Thickness_37_PCL"; String long_name "Cloud Optical Thickness two-channel retrieval using 3.7um and either 0.65 um, 0.86 um or 1.24um (specified in Quality_Assurance) from points identified as partly cloudy from cloud edges"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 15000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "none"; } /geophysical_data/Cloud_Effective_Radius_PCL { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Effective_Radius_PCL"; String long_name "Cloud Particle Effective Radius two-channel retrieval using 2.2 um and either 0.65 um, 0.86 um or 1.24um (specified in Quality_Assurance) from points identified as partly cloudy from cloud edges"; Int16 _FillValue -9999; Int16 valid_min 400; Int16 valid_max 6000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "micron"; } /geophysical_data/Cloud_Optical_Thickness_PCL { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Optical_Thickness_PCL"; String long_name "Cloud Optical Thickness two-channel retrieval using 2.2 um and either 0.65 um, 0.86 um or 1.24um (specified in Quality_Assurance) from points identified as partly cloudy from cloud edges"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 15000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "none"; } /geophysical_data/Cloud_Optical_Thickness_Uncertainty_1621 { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Optical_Thickness_Uncertainty_1621"; String long_name "Cloud Optical Thickness Relative Uncertainty (Percent) using 2.2 um and 1.6um from both best points and points identified as cloud edge"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 20000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "percent"; } /geophysical_data/Cloud_Water_Path_Uncertainty_16 { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Water_Path_Uncertainty_16"; String long_name "Cloud Water Path from 1.6 um Relative Uncertainty (Percent) from both best points and points identified as cloud edge"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 20000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "percent"; } /geophysical_data/Cloud_Phase_Optical_Properties { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Phase_Optical_Properties"; String long_name "Cloud Phase Determination Used in Optical Thickness/Effective Radius Retrieval"; Int16 _FillValue 127; Int32 valid_min 0; Int32 valid_max 4; String units "none"; String description01 " "; String description02 "Phase key: "; String description03 " 0 - Cloud Mask Not Determined "; String description04 " 1 - Clear Sky "; String description05 " 2 - Liquid Water Phase "; String description06 " 3 - Ice Phase "; String description07 " 4 - Undetermined Phase (but retrieval is attempted as liquid water) "; } /geophysical_data/Cloud_Effective_Radius_Uncertainty_37 { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Effective_Radius_Uncertainty_37"; String long_name "Cloud Effective Particle Radius from 3.7 um Relative Uncertainty (Percent) from both best points and points identified as cloud edge"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 20000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "percent"; } /geophysical_data/Cloud_Effective_Radius_37 { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Effective_Radius_37"; String long_name "Cloud Particle Effective Radius two-channel retrieval using 3.7um and either 0.65 um, 0.86 um or 1.24um (specified in Quality_Assurance) from best points: not failed in any way, not marked for clear sky restoral"; Int16 _FillValue -9999; Int16 valid_min 400; Int16 valid_max 6000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "micron"; } /geophysical_data/Cloud_Effective_Radius_Uncertainty_1621 { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Effective_Radius_Uncertainty_1621"; String long_name "Cloud Effective Particle Radius Relative Uncertainty (Percent) using 2.2 um and 1.6um from both best points and points identified as cloud edge"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 20000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "percent"; } /geophysical_data/Atm_Corr_Refl { String HDF5_OBJ_FULLPATH "/geophysical_data/Atm_Corr_Refl"; String long_name "Atmospherically corrected reflectance used during cloud optical and microphysical properties retrieval"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 16000; Float64 scale_factor 9.9999997473787516e-05; Float64 add_offset 0.; String units "none"; String description01 " "; String description02 "The individual planes in this SDS are set to contain the following: "; String description03 " 1 -- 0.65 um (Rayleigh correction amount is based on 2.1 um cloud "; String description04 " effecive radius retrieval) "; String description05 " 2 -- 0.86 um "; String description06 " 3 -- 1.2 um "; String description07 " 4 -- 1.6 um "; String description08 " 5 -- 2.1 um "; String description09 " 6 -- 3.7 um "; } /geophysical_data/Cloud_Water_Path_37_PCL { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Water_Path_37_PCL"; String long_name "Column Water Path two-channel retrieval using 3.7um and either 0.65 um, 0.86 um or 1.24um (specified in Quality_Assurance) from points identified as partly cloudy from cloud edges"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 10000; String units "g/m^2"; } /geophysical_data/Cloud_Water_Path_16_PCL { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Water_Path_16_PCL"; String long_name "Column Water Path two-channel retrieval using 1.6um and either 0.65 um, 0.86 um or 1.24um (specified in Quality_Assurance) from points identified as partly cloudy from cloud edges"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 10000; String units "g/m^2"; } /geophysical_data/Cloud_Water_Path_1621 { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Water_Path_1621"; String long_name "Column Water Path two-channel retrieval using 2.2 um and 1.6um from best points: not failed in any way, not marked for clear sky restoral"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 10000; String units "g/m^2"; } /geophysical_data/Retrieval_Failure_Metric_37 { String HDF5_OBJ_FULLPATH "/geophysical_data/Retrieval_Failure_Metric_37"; String long_name "Retrievals and other information for points that failed to retrieve via standard solution logic for retrieval using 3.7um and either 0.65um, 0.86um or 1.2um (specified in Quality_Assurance)"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 20000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "plane 1-none, plane 2-microns, plane 3-percent"; String description01 "The individual planes in this SDS are set to contain the following: "; String description02 "1 -- Cloud Optical Thickness "; String description03 "2 -- Cloud Effective Radius "; String description04 "3 -- Relative distance of failed retrieval from the library space as "; String description05 " percentage of reflectance "; } /geophysical_data/Cloud_Optical_Thickness_Uncertainty_37 { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Optical_Thickness_Uncertainty_37"; String long_name "Cloud Optical Thickness from 3.7 um Relative Uncertainty (Percent) from both best points and points identified as cloud edge"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 20000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "percent"; } /geophysical_data/Cloud_Optical_Thickness_16 { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Optical_Thickness_16"; String long_name "Cloud Optical Thickness two-channel retrieval using 1.6um and either 0.65 um, 0.86 um or 1.24um (specified in Quality_Assurance) from best points: not failed in any way, not marked for clear sky restoral"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 15000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "none"; } /geophysical_data/Cloud_Top_Pressure_Uncertainty { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Top_Pressure_Uncertainty"; String long_name "Cloud Top Pressure uncertainty from NOAA CLAVR-x AWG algorithm"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 20000; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.; String units "percent"; } /geophysical_data/Cloud_Effective_Radius { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Effective_Radius"; String long_name "Cloud Particle Effective Radius two-channel retrieval using 2.2 um and either 0.65 um, 0.86 um or 1.24um (specified in Quality_Assurance) from best points: not failed in any way, not marked for clear sky restoral"; Int16 _FillValue -9999; Int16 valid_min 400; Int16 valid_max 6000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "micron"; } /geophysical_data/Cloud_Optical_Thickness_Uncertainty { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Optical_Thickness_Uncertainty"; String long_name "Cloud Optical Thickness from 2.2 um Relative Uncertainty (Percent) from both best points and points identified as cloud edge"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 20000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "percent"; } /geophysical_data/Cloud_Optical_Thickness { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Optical_Thickness"; String long_name "Cloud Optical Thickness two-channel retrieval using 2.2 um and either 0.65 um, 0.86 um or 1.24um (specified in Quality_Assurance) from best points: not failed in any way, not marked for clear sky restoral"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 15000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "none"; } /geophysical_data/Cloud_Water_Path_Uncertainty_37 { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Water_Path_Uncertainty_37"; String long_name "Cloud Water Path from 3.7 um Relative Uncertainty (Percent) from both best points and points identified as cloud edge"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 20000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "percent"; } /geophysical_data/Cloud_Water_Path_Uncertainty { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Water_Path_Uncertainty"; String long_name "Cloud Water Path from 2.2 um Relative Uncertainty (Percent) from both best points and points identified as cloud edge"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 20000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "percent"; } /geophysical_data/Cloud_Water_Path_Uncertainty_1621 { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Water_Path_Uncertainty_1621"; String long_name "Cloud Water Path Relative Uncertainty (Percent) using 2.2 um and 1.6um from both best points and points identified as cloud edge"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 20000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "percent"; } /geophysical_data/Cloud_Optical_Thickness_16_PCL { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Optical_Thickness_16_PCL"; String long_name "Cloud Optical Thickness two-channel retrieval using 1.6um and either 0.65 um, 0.86 um or 1.24um (specified in Quality_Assurance) from points identified as partly cloudy from cloud edges"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 15000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "none"; } /geophysical_data/Retrieval_Failure_Metric_1621 { String HDF5_OBJ_FULLPATH "/geophysical_data/Retrieval_Failure_Metric_1621"; String long_name "Retrievals and other information for points that failed to retrieve via standard solution logic for retrieval using 2.2 um and 1.6um"; Int16 _FillValue -9999; Int16 valid_min 0; Int16 valid_max 20000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "plane 1-none, plane 2-microns, plane 3-percent"; String description01 "The individual planes in this SDS are set to contain the following: "; String description02 "1 -- Cloud Optical Thickness "; String description03 "2 -- Cloud Effective Radius "; String description04 "3 -- Relative distance of failed retrieval from the library space as "; String description05 " percentage of reflectance "; } /geophysical_data/Cloud_Effective_Radius_16 { String HDF5_OBJ_FULLPATH "/geophysical_data/Cloud_Effective_Radius_16"; String long_name "Cloud Particle Effective Radius two-channel retrieval using 1.6 um and either 0.65 um, 0.86 um or 1.24um (specified in Quality_Assurance) from best points: not failed in any way, not marked for clear sky restoral"; Int16 _FillValue -9999; Int16 valid_min 400; Int16 valid_max 6000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "micron"; } /geophysical_data/Surface_Pressure { String HDF5_OBJ_FULLPATH "/geophysical_data/Surface_Pressure"; String long_name "Surface pressure from ancillary data"; Int16 _FillValue -9999; Int16 valid_min 10; Int16 valid_max 11000; Float64 scale_factor 0.10000000149011612; Float64 add_offset 0.; String units "mb"; } /geolocation_data/ { String HDF5_OBJ_FULLPATH "/geolocation_data/"; } /geolocation_data/longitude { String HDF5_OBJ_FULLPATH "/geolocation_data/longitude"; String long_name "Longitude from instrument geolocation"; Float32 _FillValue -999.; Float32 valid_min -180.; Float32 valid_max 180.; String units "degrees"; } /geolocation_data/solar_zenith { String HDF5_OBJ_FULLPATH "/geolocation_data/solar_zenith"; String long_name "Solar Zenith Angle, Cell to Sun"; Int16 _FillValue -32768; Int16 valid_min 0; Int16 valid_max 18000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "degrees"; } /geolocation_data/sensor_zenith { String HDF5_OBJ_FULLPATH "/geolocation_data/sensor_zenith"; String long_name "Sensor Zenith Angle, Cell to Sensor"; Int16 _FillValue -32768; Int16 valid_min 0; Int16 valid_max 18000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "degrees"; } /geolocation_data/latitude { String HDF5_OBJ_FULLPATH "/geolocation_data/latitude"; String long_name "Latitude from instrument geolocation"; Float32 _FillValue -999.; Float32 valid_min -90.; Float32 valid_max 90.; String units "degrees"; } /geolocation_data/sensor_azimuth { String HDF5_OBJ_FULLPATH "/geolocation_data/sensor_azimuth"; String long_name "Sensor Azimuth Angle, Cell to Sensor"; Int16 _FillValue -32768; Int16 valid_min -18000; Int16 valid_max 18000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "degrees"; } /geolocation_data/solar_azimuth { String HDF5_OBJ_FULLPATH "/geolocation_data/solar_azimuth"; String long_name "Solar Azimuth Angle, Cell to Sun"; Int16 _FillValue -32768; Int16 valid_min -18000; Int16 valid_max 18000; Float64 scale_factor 0.01; Float64 add_offset 0.; String units "degrees"; } /number_of_liquid_radii { String HDF5_OBJ_FULLPATH "/number_of_liquid_radii"; String CLASS "DIMENSION_SCALE"; String NAME "This is a netCDF dimension but not a netCDF variable. 18"; } /scan_line_attributes/ { String HDF5_OBJ_FULLPATH "/scan_line_attributes/"; } /scan_line_attributes/scan_start_time { String HDF5_OBJ_FULLPATH "/scan_line_attributes/scan_start_time"; String long_name "Scan start time (atomic time counted from 1/1/1993 00:00:00.0)"; Float64 _FillValue -999.89999999999998; Float64 valid_min 0.; Float32 valid_max 2000000000.; String units "seconds elapsed from 1/1/1993 00:00:00.0"; } /number_of_quality_assurance_bytes { String HDF5_OBJ_FULLPATH "/number_of_quality_assurance_bytes"; String CLASS "DIMENSION_SCALE"; String NAME "This is a netCDF dimension but not a netCDF variable. 4"; } /number_of_reflectance_bands { String HDF5_OBJ_FULLPATH "/number_of_reflectance_bands"; String CLASS "DIMENSION_SCALE"; String NAME "This is a netCDF dimension but not a netCDF variable. 6"; } /number_of_ice_radii { String HDF5_OBJ_FULLPATH "/number_of_ice_radii"; String CLASS "DIMENSION_SCALE"; String NAME "This is a netCDF dimension but not a netCDF variable. 12"; } /number_of_scans { String HDF5_OBJ_FULLPATH "/number_of_scans"; String CLASS "DIMENSION_SCALE"; String NAME "This is a netCDF dimension but not a netCDF variable. 203"; } /number_of_lines { String HDF5_OBJ_FULLPATH "/number_of_lines"; String CLASS "DIMENSION_SCALE"; String NAME "This is a netCDF dimension but not a netCDF variable. 2030"; } /cloud_model_data/ { String HDF5_OBJ_FULLPATH "/cloud_model_data/"; } /cloud_model_data/Single_Scatter_Albedo_Ice { String HDF5_OBJ_FULLPATH "/cloud_model_data/Single_Scatter_Albedo_Ice"; String long_name "Ice particle single scattering albedo"; Float32 _FillValue -999.; Float32 valid_min 0.; Float32 valid_max 1.; String units "none"; String description01 "Ice single scatter albedo from the phase functions used to generate the "; String description02 "forward lookup tables. "; String description03 "The dimensions in this SDS are as follows: "; String description04 " 7 MODIS channels in order: 1, 2, 5, 6, 7, 20 and 31 "; String description05 " 12 ice effective radii in order: 5, 10, 15, 20, 25, 30, 35, "; String description06 " 40, 45, 50, 55 and 60 microns. "; } /cloud_model_data/Asymmetry_Parameter_Ice { String HDF5_OBJ_FULLPATH "/cloud_model_data/Asymmetry_Parameter_Ice"; String long_name "Ice particle asymmetry parameter"; Float32 _FillValue -999.; Float32 valid_min 0.; Float32 valid_max 1.; String units "none"; String description01 "Ice Asymmetry Parameter from the phase functions used to generate the"; String description02 "forward lookup tables."; String description03 "The dimensions in this SDS are as follows: "; String description04 " 7 MODIS channels in order: 1, 2, 5, 6, 7, 20 and 31 "; String description05 " 12 ice effective radii in order: 5, 10, 15, 20, 25, 30, 35, "; String description06 " 40, 45, 50, 55 and 60 microns. "; } /cloud_model_data/Extinction_Efficiency_Ice { String HDF5_OBJ_FULLPATH "/cloud_model_data/Extinction_Efficiency_Ice"; String long_name "Ice particle extinction efficiency"; Float32 _FillValue -999.; Float32 valid_min 1.; Float32 valid_max 4.; String units "none"; String description01 "Ice CE from the phase functions used to generate the forward lookup tables."; String description02 ""; String description03 "The dimensions in this SDS are as follows: "; String description04 " 7 MODIS channels in order: 1, 2, 5, 6, 7, 20 and 31 "; String description05 " 12 ice effective radii in order: 5, 10, 15, 20, 25, 30, 35, "; String description06 " 40, 45, 50, 55 and 60 microns. "; } /cloud_model_data/Asymmetry_Parameter_Liq { String HDF5_OBJ_FULLPATH "/cloud_model_data/Asymmetry_Parameter_Liq"; String long_name "Liquid water droplet asymmetry parameter"; Float32 _FillValue -999.; Float32 valid_min 0.; Float32 valid_max 1.; String units "none"; String description01 "Liquid Water Asymmetry Parameter from the phase functions used to generate"; String description02 "the forward lookup tables."; String description03 "The dimensions in this SDS are as follows: "; String description04 " 7 MODIS channels in order: 1, 2, 5, 6, 7, 20 and 31 "; String description05 " 18 liquid water effective radii in order: 2, 4, 5, 6, 7, 8, 9, 10, 12, "; String description06 " 14, 16, 18, 20, 22, 24, 26, 28 and 30 microns. "; } /cloud_model_data/Single_Scatter_Albedo_Liq { String HDF5_OBJ_FULLPATH "/cloud_model_data/Single_Scatter_Albedo_Liq"; String long_name "Liquid water droplet single scattering albedo"; Float32 _FillValue -999.; Float32 valid_min 0.; Float32 valid_max 1.; String units "none"; String description01 "Liquid water single scatter albedo from the phase functions used to "; String description02 "generate the forward lookup tables. "; String description03 "The dimensions in this SDS are as follows: "; String description04 " 7 MODIS channels in order: 1, 2, 5, 6, 7, 20 and 31 "; String description05 " 18 liquid water effective radii in order: 2, 4, 5, 6, 7, 8, 9, 10, 12, "; String description06 " 14, 16, 18, 20, 22, 24, 26, 28 and 30 microns. "; } /cloud_model_data/Extinction_Efficiency_Liq { String HDF5_OBJ_FULLPATH "/cloud_model_data/Extinction_Efficiency_Liq"; String long_name "Liquid water droplet extinction efficiency"; Float32 _FillValue -999.; Float32 valid_min 1.; Float32 valid_max 4.; String units "none"; String description01 "Liquid Water CE from the phase functions used to generate"; String description02 "the forward lookup tables."; String description03 "The dimensions in this SDS are as follows: "; String description04 " 7 MODIS channels in order: 1, 2, 5, 6, 7, 20 and 31 "; String description05 " 18 liquid water effective radii in order: 2, 4, 5, 6, 7, 8, 9, 10, 12, "; String description06 " 14, 16, 18, 20, 22, 24, 26, 28 and 30 microns. "; } /number_of_failure_metrics { String HDF5_OBJ_FULLPATH "/number_of_failure_metrics"; String CLASS "DIMENSION_SCALE"; String NAME "This is a netCDF dimension but not a netCDF variable. 3"; } /number_of_cloud_mask_bytes { String HDF5_OBJ_FULLPATH "/number_of_cloud_mask_bytes"; String CLASS "DIMENSION_SCALE"; String NAME "This is a netCDF dimension but not a netCDF variable. 2"; } }