Attributes { HDF5_GLOBAL { String AuthorAffiliation "NASA/GSFC "; String AuthorName "O. Torres, et al. "; String Conventions "CF-1.6 "; String DataSetQuality "Under investigation. "; String DayNightFlag "Day "; Float32 EastBoundingCoordinate 180.0000000; String EquatorCrossingDate "2016-10-20 "; Float32 EquatorCrossingLongitude -162.5200043; String EquatorCrossingTime "00:33:51 "; String FOVResolution "13x24km "; Int32 GranuleDay 19; Int32 GranuleDayOfYear 293; Int32 GranuleMonth 10; Int32 GranuleYear 2016; String HDFVersion "5-1.8.12 "; String identifier_product_doi "10.5067/MEASURES/AER/DATA203 "; String identifier_product_doi_authority "http://dx.doi.org/ "; String InputPointer " OMI-Aura_L1-OML1BRVG_2016m1019t2342-o65236_v003-2016m1020t055710.he4, LUT_v5.he4, OMI-Aura_L2-NVALC_AERUV_v00008.he4, AIRS.2016.10.19.L3.RetStd_IR001.v6.0.31.0.G16294160036.hdf, AIRS.2016.10.18.L3.RetStd_IR001.v6.0.31.0.G16293170103.hdf "; String InstrumentShortName "OMI "; String LocalGranuleID "OMI-Aura_L2-OMIAuraAER_2016m1019t234222-o65236_v01-00-2018m0916t122808.h5 "; String LocalityValue "Global "; String LongName "OMI/Aura Near UV Aerosol Index, Optical Depth and Single Scattering Albedo 1-Orbit L2 Swath 13x24km "; Float32 NorthBoundingCoordinate 89.88604736; Int32 NumTimes 1997; Int32 OrbitNumber 65236; String ParameterName "Near UV Aerosol Properties "; String PGEVersion "0.0.9 "; String PlatformShortName "Aura "; String ProcessingCenter "ACPS "; String ProcessLevel "2 "; String ProductType "L2 Swath "; String RangeBeginningDate "2016-10-19 "; String RangeBeginningTime "23:42:22 "; String RangeEndingDate "2016-10-20 "; String RangeEndingTime "01:21:14 "; String SensorShortName "CCD Ultra Violet "; String ShortName "OMIAuraAER "; String Source "Aura/OMI "; Float32 SouthBoundingCoordinate -89.72295380; String VersionID "1 "; Float32 WestBoundingCoordinate -180.0000000; Float64 TAI93At0zOfGranule 750988809.00000000; String ProductionDateTime "2018-09-16T12:28:08.0Z "; } ANCILLARY_DATA { } GEOLOCATION_DATA { } SCIENCE_DATA { } SENSOR_DATA { } ANCILLARY_DATA_AIRS_CO_Flags { String long_name "AIRS CO Flags"; String units "1"; String description "The AIRS CO flags: 1 = AIRS CO L3 file from current day used, 2 = AIRS CO L3 file from previous day used, 3 = AIRS CO climatology used."; Int32 valid_min 1; Int32 valid_max 3; Int32 _FillValue -2147483647; String origname "AIRS_CO_Flags"; String fullnamepath "/ANCILLARY_DATA/AIRS_CO_Flags"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude"; } ANCILLARY_DATA_AIRS_CO_Value { String long_name "AIRS CO Value"; String units "1/cm2"; String description "The AIRS CO value (in molecules/cm2)."; Float32 valid_min 9.999999870e+14; Float32 valid_max 1.000000020e+20; Float32 _FillValue -1.267650600e+30; String origname "AIRS_CO_Value"; String fullnamepath "/ANCILLARY_DATA/AIRS_CO_Value"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude"; } ANCILLARY_DATA_SurfaceAlbedoOceanCorrected { String long_name "Surface Albedo Ocean Corrected at 354, 388 and 500 nm"; String units "1"; String description "The surface albedo ocean corrected at 354, 388 and 500 nm."; Float32 valid_min 0.000000000; Float32 valid_max 1.000000000; Float32 _FillValue -1.267650600e+30; String origname "SurfaceAlbedoOceanCorrected"; String fullnamepath "/ANCILLARY_DATA/SurfaceAlbedoOceanCorrected"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude SENSOR_DATA_Wavelength"; } ANCILLARY_DATA_TerrainPressure { String long_name "Terrain Pressure"; String units "hPa"; String description "The terrain pressure (in hPa) at the center of the ground pixel (from the OMI Level 1B file)."; Float32 valid_min 0.000000000; Float32 valid_max 1050.000000; Float32 _FillValue -1.267650600e+30; String origname "TerrainPressure"; String fullnamepath "/ANCILLARY_DATA/TerrainPressure"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude"; } GEOLOCATION_DATA_FoV75Area { String long_name "Mean Area for 75% Field of View Pixels on the WGS-85 Ellipsoid"; String units "km2"; String description "The mean area (in square km) of the 75% Field of View (i.e., overlapping) ground pixels (from OMPIXCOR)."; Float32 valid_min 0.000000000; Float32 valid_max 5000.000000; Float32 _FillValue -1.267650600e+30; String origname "FoV75Area"; String fullnamepath "/GEOLOCATION_DATA/FoV75Area"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude"; } GEOLOCATION_DATA_FoV75CornerLatitude { String long_name "Corner Latitudes for 75% Field of View Pixels on the WGS-85 Ellipsoid (CCW relative to flight direction: LL,LR,UR,UL)"; String units "degrees_north"; String description "The geodetic latitudes (in degrees) of the corner coordinates of the 75% Field of View (i.e., overlapping) ground pixels (from OMPIXCOR)."; Float32 valid_min -90.00000000; Float32 valid_max 90.00000000; Float32 _FillValue -1.267650600e+30; String origname "FoV75CornerLatitude"; String fullnamepath "/GEOLOCATION_DATA/FoV75CornerLatitude"; } GEOLOCATION_DATA_FoV75CornerLongitude { String long_name "Corner Longitudes for 75% Field of View Pixels on the WGS-85 Ellipsoid (CCW relative to flight direction: LL,LR,UR,UL)"; String units "degrees_east"; String description "The geodetic longitudes (in degrees) of the corner coordinates of the 75% Field of View (i.e., overlapping) ground pixels (from OMPIXCOR)."; Float32 valid_min -180.0000000; Float32 valid_max 180.0000000; Float32 _FillValue -1.267650600e+30; String origname "FoV75CornerLongitude"; String fullnamepath "/GEOLOCATION_DATA/FoV75CornerLongitude"; } GEOLOCATION_DATA_GroundPixelQualityFlags { String units "1"; Int32 valid_min 0; String long_name "Ground Pixel Quality Flags"; String description "The ground pixel quality flags (for the ground pixel): Bits 0 to 3 together contain the land/water flags: 0 - shallow ocean, 1 - land, 2 - shallow inland water, 3 - ocean coastline/lake shoreline, 4 - ephemeral (intermittent) water, 5 - deep inland water, 6 - continental shelf ocean, 7 - deep ocean, 8 to 14 - not used, 15 - error flag for land/water, Bits 4 to 6 are flags that are set to 0 for FALSE or 1 for TRUE: Bit 4 - sun glint possibility flag, Bit 5 - solar eclipse possibility flag, Bit 6 - geolocation error flag, Bit 7 is reserved for future use (currently set to 0), Bits 8 to 14 together contain the snow/ice flags (based on NISE): 0 - snow-free land, 1 to 100 - sea ice concentration (percent), 101 - permanent ice (Greenland, Antarctica), 102 - not used, 103 - dry snow, 104 - ocean (NISE-255), 105 to 123 - reserved for future use, 124 - mixed pixels at coastline (NISE-252), 125 - suspect ice value (NISE-253), 126 - corners undefined (NISE-254), 127 - error, Bit 15 - NISE nearest neighbor filling flag."; Int32 valid_max 65534; Int32 _FillValue -2147483647; String origname "GroundPixelQualityFlags"; String fullnamepath "/GEOLOCATION_DATA/GroundPixelQualityFlags"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude"; } GEOLOCATION_DATA_Level { String long_name "Atmospheric Level"; String units "km"; String description "The atmospheric level (in km)."; Float32 valid_min 0.000000000; Float32 valid_max 10.00000000; Float32 _FillValue -1.267650600e+30; String origname "Level"; String fullnamepath "/GEOLOCATION_DATA/Level"; } GEOLOCATION_DATA_RelativeAzimuthAngle { String long_name "Relative Azimuth Angle (sun + 180 - view)"; String units "degrees"; String description "The relative (sun + 180 - view) azimuth angle (in degrees) at the center of the ground pixel."; Float32 valid_min -180.0000000; Float32 valid_max 180.0000000; Float32 _FillValue -1.267650600e+30; String origname "RelativeAzimuthAngle"; String fullnamepath "/GEOLOCATION_DATA/RelativeAzimuthAngle"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude"; } GEOLOCATION_DATA_SecondsInDay { Float32 valid_max 86401.00000; Float32 _FillValue -1.267650600e+30; String long_name "Seconds After UTC Midnight"; String units "s"; String description "The time (in s) after UTC midnight at the start of the observation."; Float32 valid_min 0.000000000; String origname "SecondsInDay"; String fullnamepath "/GEOLOCATION_DATA/SecondsInDay"; } GEOLOCATION_DATA_SolarZenithAngle { Float32 valid_max 105.0000000; Float32 _FillValue -1.267650600e+30; String long_name "Solar Zenith Angle"; String units "degrees"; String description "The solar zenith angle (in degrees) at the center of the ground pixel."; Float32 valid_min 0.000000000; String origname "SolarZenithAngle"; String fullnamepath "/GEOLOCATION_DATA/SolarZenithAngle"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude"; } GEOLOCATION_DATA_TimeTAI93 { String long_name "Time at Start of Scan (TAI93)"; String standard_name "time"; String units "seconds since 1993-01-01"; String description "The TAI93 time (in continuous seconds since 12 a.m. UTC on January 1, 1993) at the start of the scan."; Float64 valid_min -5000000000.0000000; Float64 valid_max 10000000000.000000; Float64 _FillValue -1.2676506002282294e+30; String origname "TimeTAI93"; String fullnamepath "/GEOLOCATION_DATA/TimeTAI93"; } GEOLOCATION_DATA_TimeUTC { String long_name "Time at Start of Scan (UTC)"; String valid_min "2004-07-15T00:00:00.000000Z"; String valid_max "2030-12-31T23:59:59.999999Z"; String description "The UTC time at the start of the scan."; String origname "TimeUTC"; String fullnamepath "/GEOLOCATION_DATA/TimeUTC"; } GEOLOCATION_DATA_ViewingZenithAngle { String units "degrees"; String description "The viewing zenith angle (in degrees) at the center of the ground pixel."; String long_name "Viewing Zenith Angle"; Float32 valid_min 0.000000000; Float32 valid_max 70.50000000; Float32 _FillValue -1.267650600e+30; String origname "ViewingZenithAngle"; String fullnamepath "/GEOLOCATION_DATA/ViewingZenithAngle"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude"; } SCIENCE_DATA_AerosolAbsorptionOpticalDepthVsHeight354 { String long_name "Aerosol Absorption Optical Depth vs. Height at 354 nm"; String units "1"; String description "The aerosol absorption optical depth vs. height at 354 nm."; Float32 valid_min 0.000000000; Float32 valid_max 1.000000000; Float32 _FillValue -1.267650600e+30; String origname "AerosolAbsorptionOpticalDepthVsHeight354"; String fullnamepath "/SCIENCE_DATA/AerosolAbsorptionOpticalDepthVsHeight354"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude GEOLOCATION_DATA_Level"; } SCIENCE_DATA_AerosolAbsorptionOpticalDepthVsHeight388 { String long_name "Aerosol Absorption Optical Depth vs. Height at 388 nm"; String units "1"; String description "The aerosol absorption optical depth vs. height at 388 nm."; Float32 valid_min 0.000000000; Float32 valid_max 1.000000000; Float32 _FillValue -1.267650600e+30; String origname "AerosolAbsorptionOpticalDepthVsHeight388"; String fullnamepath "/SCIENCE_DATA/AerosolAbsorptionOpticalDepthVsHeight388"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude GEOLOCATION_DATA_Level"; } SCIENCE_DATA_AerosolAbsorptionOpticalDepthVsHeight500 { String long_name "Aerosol Absorption Optical Depth vs. Height at 500 nm (354-388 nm)"; String units "1"; String description "The aerosol absorption optical depth vs. height at 500 nm (354-388 nm)."; Float32 valid_min 0.000000000; Float32 valid_max 1.000000000; Float32 _FillValue -1.267650600e+30; String origname "AerosolAbsorptionOpticalDepthVsHeight500"; String fullnamepath "/SCIENCE_DATA/AerosolAbsorptionOpticalDepthVsHeight500"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude GEOLOCATION_DATA_Level"; } SCIENCE_DATA_AerosolOpticalDepthVsHeight354 { String description "The aerosol optical depth vs. height at 354 nm."; Float32 valid_min 0.000000000; Float32 valid_max 12.00000000; Float32 _FillValue -1.267650600e+30; String long_name "Aerosol Optical Depth vs. Height at 354 nm"; String units "1"; String origname "AerosolOpticalDepthVsHeight354"; String fullnamepath "/SCIENCE_DATA/AerosolOpticalDepthVsHeight354"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude GEOLOCATION_DATA_Level"; } SCIENCE_DATA_AerosolOpticalDepthVsHeight388 { String long_name "Aerosol Optical Depth vs. Height at 388 nm"; String units "1"; String description "The aerosol optical depth vs. height at 388 nm."; Float32 valid_min 0.000000000; Float32 valid_max 10.00000000; Float32 _FillValue -1.267650600e+30; String origname "AerosolOpticalDepthVsHeight388"; String fullnamepath "/SCIENCE_DATA/AerosolOpticalDepthVsHeight388"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude GEOLOCATION_DATA_Level"; } SCIENCE_DATA_AerosolOpticalDepthVsHeight500 { String long_name "Aerosol Optical Depth vs. Height at 500 nm (354-388 nm)"; String units "1"; String description "The aerosol optical depth vs. height at 500 nm (354-388 nm)."; Float32 valid_min 0.000000000; Float32 valid_max 6.000000000; Float32 _FillValue -1.267650600e+30; String origname "AerosolOpticalDepthVsHeight500"; String fullnamepath "/SCIENCE_DATA/AerosolOpticalDepthVsHeight500"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude GEOLOCATION_DATA_Level"; } SCIENCE_DATA_AerosolSingleScatteringAlbedoVsHeight354 { String long_name "Aerosol Single Scattering Albedo vs. Height at 354 nm"; String units "1"; String description "The aerosol single scattering albedo vs. height at 354 nm."; Float32 valid_min 0.000000000; Float32 valid_max 1.000000000; Float32 _FillValue -1.267650600e+30; String origname "AerosolSingleScatteringAlbedoVsHeight354"; String fullnamepath "/SCIENCE_DATA/AerosolSingleScatteringAlbedoVsHeight354"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude GEOLOCATION_DATA_Level"; } SCIENCE_DATA_AerosolSingleScatteringAlbedoVsHeight388 { String description "The aerosol single scattering albedo vs. height at 388 nm."; Float32 valid_min 0.000000000; Float32 valid_max 1.000000000; Float32 _FillValue -1.267650600e+30; String long_name "Aerosol Single Scattering Albedo vs. Height at 388 nm"; String units "1"; String origname "AerosolSingleScatteringAlbedoVsHeight388"; String fullnamepath "/SCIENCE_DATA/AerosolSingleScatteringAlbedoVsHeight388"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude GEOLOCATION_DATA_Level"; } SCIENCE_DATA_AerosolSingleScatteringAlbedoVsHeight500 { String long_name "Aerosol Single Scattering Albedo vs. Height at 500 nm (354-388 nm)"; String units "1"; Float32 valid_min 0.000000000; String description "The aerosol single scattering albedo vs. height at 500 nm (354-388 nm)."; Float32 valid_max 1.000010014; Float32 _FillValue -1.267650600e+30; String origname "AerosolSingleScatteringAlbedoVsHeight500"; String fullnamepath "/SCIENCE_DATA/AerosolSingleScatteringAlbedoVsHeight500"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude GEOLOCATION_DATA_Level"; } SCIENCE_DATA_AerosolType354and388 { String long_name "Aerosol Type (354-388 nm)"; String units "1"; String description "The aerosol type (354-388 nm): 1 = smoke, 2 = dust, 3 = sulfate."; Int32 valid_min 1; Int32 valid_max 3; Int32 _FillValue -2147483647; String origname "AerosolType354and388"; String fullnamepath "/SCIENCE_DATA/AerosolType354and388"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude"; } SCIENCE_DATA_AlgorithmFlagsVsHeight354and388 { String long_name "Algorithm Flags vs. Heights (354-388 nm)"; String units "1"; Int32 valid_min 0; Int32 valid_max 8; Int32 _FillValue -2147483647; String description "The algorithm flags vs. height (354-388 nm): 0 = most reliable AOD, SSA and AAOD retrievals (minimum sub-pixel cloud contanimation), 1 = possible cloud contanimation, 2 = no longer used, 3 = out-of-bounds SSA or AOD above 6.0 at 500 nm, 4 = snow/ice contanimated, 5 = solar zenith angle above 70.0 degrees, 6 = sun glint angle over water below 40.0 degrees, 7 = terrain pressure below 250.0 hPa, 8 = likely affected by OMI row anomaly."; String origname "AlgorithmFlagsVsHeight354and388"; String fullnamepath "/SCIENCE_DATA/AlgorithmFlagsVsHeight354and388"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude GEOLOCATION_DATA_Level"; } SCIENCE_DATA_CloudFraction388 { String long_name "Cloud Fraction at 388 nm"; String units "1"; String description "The effective cloud fraction at 388 nm."; Float32 valid_min -0.01499999966; Float32 valid_max 1.000000000; Float32 _FillValue -1.267650600e+30; String origname "CloudFraction388"; String fullnamepath "/SCIENCE_DATA/CloudFraction388"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude"; } SCIENCE_DATA_CloudOpticalDepth388 { String units "1"; String description "The cloud optical depth at 388 nm."; Float32 valid_min 0.000000000; Float32 valid_max 100.0000000; Float32 _FillValue -1.267650600e+30; String long_name "Cloud Optical Depth at 388 nm"; String origname "CloudOpticalDepth388"; String fullnamepath "/SCIENCE_DATA/CloudOpticalDepth388"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude"; } SCIENCE_DATA_FinalAerosolAbsorptionOpticalDepth354 { String long_name "Final Aerosol Absorption Optical Depth at 354 nm"; String units "1"; String description "The final aerosol absorption optical depth at 354 nm."; Float32 valid_min 0.000000000; Float32 valid_max 1.000000000; Float32 _FillValue -1.267650600e+30; String origname "FinalAerosolAbsorptionOpticalDepth354"; String fullnamepath "/SCIENCE_DATA/FinalAerosolAbsorptionOpticalDepth354"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude"; } SCIENCE_DATA_FinalAerosolAbsorptionOpticalDepth388 { String long_name "Final Aerosol Absorption Optical Depth at 388 nm"; String units "1"; String description "The final aerosol absorption optical depth at 388 nm."; Float32 valid_min 0.000000000; Float32 valid_max 1.000000000; Float32 _FillValue -1.267650600e+30; String origname "FinalAerosolAbsorptionOpticalDepth388"; String fullnamepath "/SCIENCE_DATA/FinalAerosolAbsorptionOpticalDepth388"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude"; } SCIENCE_DATA_FinalAerosolAbsorptionOpticalDepth500 { String long_name "Final Aerosol Absorption Optical Depth at 500 nm (354-388 nm)"; String units "1"; String description "The final aerosol absorption optical depth at 500 nm (354-388 nm)."; Float32 valid_min 0.000000000; Float32 valid_max 1.000000000; Float32 _FillValue -1.267650600e+30; String origname "FinalAerosolAbsorptionOpticalDepth500"; String fullnamepath "/SCIENCE_DATA/FinalAerosolAbsorptionOpticalDepth500"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude"; } SCIENCE_DATA_FinalAerosolLayerHeight354and388 { String units "km"; String description "The final aerosol layer height (354-388 nm)."; Float32 valid_min 0.000000000; Float32 valid_max 10.00000000; Float32 _FillValue -1.267650600e+30; String long_name "Final Aerosol Layer Height (354-388 nm)"; String origname "FinalAerosolLayerHeight354and388"; String fullnamepath "/SCIENCE_DATA/FinalAerosolLayerHeight354and388"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude"; } SCIENCE_DATA_FinalAerosolOpticalDepth354 { String long_name "Final Aerosol Optical Depth at 354 nm"; String units "1"; String description "The final aerosol optical depth at 354 nm."; Float32 valid_min 0.000000000; Float32 valid_max 12.00000000; Float32 _FillValue -1.267650600e+30; String origname "FinalAerosolOpticalDepth354"; String fullnamepath "/SCIENCE_DATA/FinalAerosolOpticalDepth354"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude"; } SCIENCE_DATA_FinalAerosolOpticalDepth388 { String units "1"; String description "The final aerosol optical depth at 388 nm."; Float32 valid_min 0.000000000; Float32 valid_max 10.00000000; Float32 _FillValue -1.267650600e+30; String long_name "Final Aerosol Optical Depth at 388 nm"; String origname "FinalAerosolOpticalDepth388"; String fullnamepath "/SCIENCE_DATA/FinalAerosolOpticalDepth388"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude"; } SCIENCE_DATA_FinalAerosolOpticalDepth500 { String long_name "Final Aerosol Optical Depth at 500 nm (354-388 nm)"; String units "1"; String description "The final aerosol optical depth at 500 nm (354-388 nm)."; Float32 valid_min 0.000000000; Float32 valid_max 6.000000000; Float32 _FillValue -1.267650600e+30; String origname "FinalAerosolOpticalDepth500"; String fullnamepath "/SCIENCE_DATA/FinalAerosolOpticalDepth500"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude"; } SCIENCE_DATA_FinalAerosolSingleScatteringAlbedo354 { String long_name "Final Aerosol Single Scattering Albedo at 354 nm"; String units "1"; String description "The final aerosol single scattering albedo at 354 nm."; Float32 valid_min 0.000000000; Float32 valid_max 1.000000000; Float32 _FillValue -1.267650600e+30; String origname "FinalAerosolSingleScatteringAlbedo354"; String fullnamepath "/SCIENCE_DATA/FinalAerosolSingleScatteringAlbedo354"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude"; } SCIENCE_DATA_FinalAerosolSingleScatteringAlbedo388 { String long_name "Final Aerosol Single Scattering Albedo at 388 nm"; String units "1"; String description "The final aerosol single scattering albedo at 388 nm."; Float32 valid_min 0.000000000; Float32 valid_max 1.000000000; Float32 _FillValue -1.267650600e+30; String origname "FinalAerosolSingleScatteringAlbedo388"; String fullnamepath "/SCIENCE_DATA/FinalAerosolSingleScatteringAlbedo388"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude"; } SCIENCE_DATA_FinalAerosolSingleScatteringAlbedo500 { String long_name "Final Aerosol Single Scattering Albedo at 500 nm (354-388 nm)"; String units "1"; String description "The final aerosol single scattering albedo at 500 nm (354-388 nm)."; Float32 valid_min 0.000000000; Float32 valid_max 1.000010014; Float32 _FillValue -1.267650600e+30; String origname "FinalAerosolSingleScatteringAlbedo500"; String fullnamepath "/SCIENCE_DATA/FinalAerosolSingleScatteringAlbedo500"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude"; } SCIENCE_DATA_FinalAlgorithmFlags354and388 { String long_name "Final Algorithm Flags (354-388 nm)"; String units "1"; String description "The final algorithm flags (354-388 nm): 0 = most reliable AOD, SSA and AAOD retrievals (minimum sub-pixel cloud contanimation), 1 = possible cloud contanimation, 2 = no longer used, 3 = out-of-bounds SSA or AOD above 6.0 at 500 nm, 4 = snow/ice contanimated, 5 = solar zenith angle above 70.0 degrees, 6 = sun glint angle over water below 40.0 degrees, 7 = terrain pressure below 250.0 hPa, 8 = likely affected by OMI row anomaly."; Int32 valid_min 0; Int32 valid_max 8; Int32 _FillValue -2147483647; String origname "FinalAlgorithmFlags354and388"; String fullnamepath "/SCIENCE_DATA/FinalAlgorithmFlags354and388"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude"; } SCIENCE_DATA_FinalImaginaryPartOfRefractiveIndex354 { String long_name "Final Imaginary Part of Refractive Index at 354 nm"; String units "1"; String description "The final imaginary part of the refractive index at 354 nm."; Float32 valid_min 0.000000000; Float32 valid_max 1.000000000; Float32 _FillValue -1.267650600e+30; String origname "FinalImaginaryPartOfRefractiveIndex354"; String fullnamepath "/SCIENCE_DATA/FinalImaginaryPartOfRefractiveIndex354"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude"; } SCIENCE_DATA_FinalImaginaryPartOfRefractiveIndex388 { String long_name "Final Imaginary Part of Refractive Index at 388 nm"; String units "1"; String description "The final imaginary part of the refractive index at 388 nm."; Float32 valid_min 0.000000000; Float32 valid_max 1.000000000; Float32 _FillValue -1.267650600e+30; String origname "FinalImaginaryPartOfRefractiveIndex388"; String fullnamepath "/SCIENCE_DATA/FinalImaginaryPartOfRefractiveIndex388"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude"; } SCIENCE_DATA_HeightFlags354and388 { String long_name "Height Flags (354-388 nm)"; String units "1"; String description "The height flags (354-388 nm): 1 = CALIOP climatology, 2 = GOCART climatology, 3 = interpolated (between 3.0 and 6.0 km within -45.0/-30.0 to +30.0/+45.0 degrees latitude), 4 = assumed (0.0, 1.5, 3.0, 6.0 or 10.0 km)."; Int32 valid_min 1; Int32 valid_max 4; Int32 _FillValue -2147483647; String origname "HeightFlags354and388"; String fullnamepath "/SCIENCE_DATA/HeightFlags354and388"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude"; } SCIENCE_DATA_ImaginaryPartOfRefractiveIndex354 { String long_name "Imaginary Part of Refractive Index at 354 nm"; String units "1"; String description "The imaginary part of the refractive index at 354 nm."; Float32 valid_min 0.000000000; Float32 valid_max 1.000000000; Float32 _FillValue -1.267650600e+30; String origname "ImaginaryPartOfRefractiveIndex354"; String fullnamepath "/SCIENCE_DATA/ImaginaryPartOfRefractiveIndex354"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude GEOLOCATION_DATA_Level"; } SCIENCE_DATA_ImaginaryPartOfRefractiveIndex388 { String long_name "Imaginary Part of Refractive Index at 388 nm"; String units "1"; String description "The imaginary part of the refractive index at 388 nm."; Float32 valid_min 0.000000000; Float32 valid_max 1.000000000; Float32 _FillValue -1.267650600e+30; String origname "ImaginaryPartOfRefractiveIndex388"; String fullnamepath "/SCIENCE_DATA/ImaginaryPartOfRefractiveIndex388"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude GEOLOCATION_DATA_Level"; } SCIENCE_DATA_ImaginaryPartOfRefractiveIndex500 { String long_name "Imaginary Part of Refractive Index at 500 nm (354-388 nm)"; String units "1"; String description "The imaginary part of the refractive index at 500 nm (354-388 nm)."; Float32 valid_min 0.000000000; Float32 valid_max 1.000000000; Float32 _FillValue -1.267650600e+30; String origname "ImaginaryPartOfRefractiveIndex500"; String fullnamepath "/SCIENCE_DATA/ImaginaryPartOfRefractiveIndex500"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude GEOLOCATION_DATA_Level"; } SCIENCE_DATA_NormalizedRadiance { String long_name "Normalized Radiances at 354, 388 and 500 nm (354-388 nm)"; String units "1"; String description "The normalized radiances at 354, 388 and 500 nm (354-388 nm)."; Float32 valid_min 0.000000000; Float32 valid_max 1.000000000; Float32 _FillValue -1.267650600e+30; String origname "NormalizedRadiance"; String fullnamepath "/SCIENCE_DATA/NormalizedRadiance"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude SENSOR_DATA_Wavelength"; } SCIENCE_DATA_Reflectivity { String long_name "Lambertian Equivalent Reflectivity at 354 and 388 nm"; String units "1"; String description "The Lambertian Equivalent Reflectivity at 354 and 388 nm."; Float32 valid_min -0.1500000060; Float32 valid_max 1.149999976; Float32 _FillValue -1.267650600e+30; String origname "Reflectivity"; String fullnamepath "/SCIENCE_DATA/Reflectivity"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude"; } SCIENCE_DATA_Residue354and388 { String units "1"; String long_name "Residue (354-388 nm)"; String description "The Residue (354-388 nm)."; Float32 valid_min -50.00000000; Float32 valid_max 50.00000000; Float32 _FillValue -1.267650600e+30; String origname "Residue354and388"; String fullnamepath "/SCIENCE_DATA/Residue354and388"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude"; } SCIENCE_DATA_UVAerosolIndex354and388 { String long_name "UV Aerosol Index (Mie 354-388 nm)"; String units "1"; String description "The UV Aerosol Index (Mie 354-388 nm)."; Float32 valid_min -50.00000000; Float32 valid_max 50.00000000; Float32 _FillValue -1.267650600e+30; String origname "UVAerosolIndex354and388"; String fullnamepath "/SCIENCE_DATA/UVAerosolIndex354and388"; String coordinates "GEOLOCATION_DATA_TimeTAI93 GEOLOCATION_DATA_Latitude GEOLOCATION_DATA_Longitude"; } SENSOR_DATA_Wavelength { String long_name "Wavelength"; String description "The relevant wavelengths. There are three wavelengths that range from 354 to 500 nm."; Float32 valid_min 300.0000000; Float32 valid_max 500.0000000; Float32 _FillValue -1.267650600e+30; String standard_name "sensor_band_central_radiation_wavelength"; String units "nm"; String origname "Wavelength"; String fullnamepath "/SENSOR_DATA/Wavelength"; } nTimes { String long_name "Scan-Line Number"; String units "1"; String description "The dimension representing the scan-line number in the granule. The values range from 1 to nTimes."; String origname "nTimes"; String fullnamepath "/nTimes"; } nXtrack { String long_name "Cross-Track-Position Number (1-Based)"; String units "1"; String description "The dimension representing the cross-track-position number of the observation in the scan line. The values range from 1 to 60."; String origname "nXtrack"; String fullnamepath "/nXtrack"; } nCorners { String long_name "Ground-Pixel Corner"; String units "1"; String description "The dimension representing the ground-pixel corners. There are four corners per ground pixel."; String origname "nCorners"; String fullnamepath "/nCorners"; } nLevels { String long_name "Atmospheric-Level Number"; String units "1"; String description "The dimension representing the atmospheric-level number. There are five levels."; String origname "nLevels"; String fullnamepath "/nLevels"; } nWavel2 { String long_name "Wavelength (354 and 388 nm)"; String units "1"; String description "The dimension representing two wavelengths (354 and 388 nm)."; String origname "nWavel2"; String fullnamepath "/nWavel2"; } nWavel3 { String long_name "Wavelength (354, 388 and 500 nm)"; String units "1"; String description "The dimension representing three wavelengths (354, 388 and 500 nm)."; String origname "nWavel3"; String fullnamepath "/nWavel3"; } GEOLOCATION_DATA_Latitude { String long_name "Latitude"; String standard_name "latitude"; String bounds "/GEOLOCATION_DATA/FoV75CornerLatitude"; String units "degrees_north"; String description "The terrestrial latitude (in degrees) at the center of the ground pixel."; Float32 valid_min -90.00000000; Float32 valid_max 90.00000000; Float32 _FillValue -1.267650600e+30; String origname "Latitude"; String fullnamepath "/GEOLOCATION_DATA/Latitude"; } GEOLOCATION_DATA_Longitude { String long_name "Longitude"; String standard_name "longitude"; String bounds "/GEOLOCATION_DATA/FoV75CornerLongitude"; String units "degrees_east"; String description "The terrestrial longitude (in degrees) at the center of the ground pixel."; Float32 valid_min -180.0000000; Float32 valid_max 180.0000000; Float32 _FillValue -1.267650600e+30; String origname "Longitude"; String fullnamepath "/GEOLOCATION_DATA/Longitude"; } }