Attributes { SST { UInt16 _FillValue 65535; String long_name "ABI L2+ Sea Surface (Skin) Temperature"; String standard_name "sea_surface_skin_temperature"; UInt16 valid_range 0, 65530; Float32 scale_factor 0.00244163000; Float32 add_offset 180.000000; String units "K"; String resolution "y: 0.000056 rad x: 0.000056 rad"; String coordinates "retrieval_local_zenith_angle quantitative_local_zenith_angle retrieval_solar_zenith_angle t y x"; String grid_mapping "goes_imager_projection"; String cell_methods "retrieval_local_zenith_angle: point (good or degraded quality pixel produced) quantitative_local_zenith_angle: point (good quality pixel produced) retrieval_solar_zenith_angle: point (good quality pixel produced) t: point area: point"; String ancillary_variables "DQF"; String algorithm_type "regression"; } DQF { Byte _FillValue 255; String long_name "ABI L2+ Sea Surface (Skin) Temperature data quality flags"; String standard_name "status_flag"; Byte valid_range 0, 3; String units "1"; String coordinates "retrieval_local_zenith_angle quantitative_local_zenith_angle retrieval_solar_zenith_angle t y x"; String grid_mapping "goes_imager_projection"; String cell_methods "retrieval_local_zenith_angle: point quantitative_local_zenith_angle: point retrieval_solar_zenith_angle: point t: point area: point"; Byte flag_values 0, 1, 2, 3; String flag_meanings "good_quality_qf degraded_quality_qf severely_degraded_quality_qf invalid_due_to_unprocessed_qf"; Byte number_of_qf_values 4; Float32 percent_good_quality_qf 0.202214897; Float32 percent_degraded_quality_qf 0.0145255998; Float32 percent_severely_degraded_quality_qf 0.515007377; Float32 percent_invalid_due_to_unprocessed_qf 0.544799089; } t { String long_name "J2000 epoch mid-point between the start and end image scan in seconds"; String standard_name "time"; String units "seconds since 2000-01-01 12:00:00"; String axis "T"; String bounds "time_bounds"; } y { Float32 scale_factor -5.60000008e-05; Float32 add_offset 0.151843995; String units "rad"; String axis "Y"; String long_name "GOES fixed grid projection y-coordinate"; String standard_name "projection_y_coordinate"; } x { Float32 scale_factor 5.60000008e-05; Float32 add_offset -0.151843995; String units "rad"; String axis "X"; String long_name "GOES fixed grid projection x-coordinate"; String standard_name "projection_x_coordinate"; } time_bounds { String long_name "Scan start and end times in seconds since epoch (2000-01-01 12:00:00)"; } goes_imager_projection { String long_name "GOES-R ABI fixed grid projection"; String grid_mapping_name "geostationary"; Float64 perspective_point_height 35786023.00000000; Float64 semi_major_axis 6378137.000000000; Float64 semi_minor_axis 6356752.314140000; Float64 inverse_flattening 298.2572221000000; Float64 latitude_of_projection_origin 0.000000000000000; Float64 longitude_of_projection_origin -75.00000000000000; String sweep_angle_axis "x"; } y_image { String long_name "GOES-R fixed grid projection y-coordinate center of image"; String standard_name "projection_y_coordinate"; String units "rad"; String axis "Y"; } y_image_bounds { String long_name "GOES-R fixed grid projection y-coordinate north/south extent of image"; String units "rad"; } x_image { String long_name "GOES-R fixed grid projection x-coordinate center of image"; String standard_name "projection_x_coordinate"; String units "rad"; String axis "X"; } x_image_bounds { String long_name "GOES-R fixed grid projection x-coordinate west/east extent of image"; String units "rad"; } nominal_satellite_subpoint_lat { String long_name "nominal satellite subpoint latitude (platform latitude)"; String standard_name "latitude"; Float32 _FillValue -999.000000; String units "degrees_north"; } nominal_satellite_subpoint_lon { String long_name "nominal satellite subpoint longitude (platform longitude)"; String standard_name "longitude"; Float32 _FillValue -999.000000; String units "degrees_east"; } nominal_satellite_height { String long_name "nominal satellite height above GRS 80 ellipsoid (platform altitude)"; String standard_name "height_above_reference_ellipsoid"; Float32 _FillValue -999.000000; String units "km"; } geospatial_lat_lon_extent { String long_name "geospatial latitude and longitude references"; Float32 geospatial_westbound_longitude -156.299500; Float32 geospatial_northbound_latitude 81.3282013; Float32 geospatial_eastbound_longitude 6.29949999; Float32 geospatial_southbound_latitude -81.3282013; Float32 geospatial_lat_center 0.00000000; Float32 geospatial_lon_center -75.0000000; Float32 geospatial_lat_nadir 0.00000000; Float32 geospatial_lon_nadir -75.0000000; String geospatial_lat_units "degrees_north"; String geospatial_lon_units "degrees_east"; } total_number_of_good_quality_ocean_pixels { String long_name "number of good quality sea surface temperature pixels"; Int32 _FillValue -1; String units "count"; String coordinates "quantitative_local_zenith_angle retrieval_solar_zenith_angle t y_image x_image"; String grid_mapping "goes_imager_projection"; String cell_methods "quantitative_local_zenith_angle: sum retrieval_solar_zenith_angle: sum t: sum area: sum (interval: 0.000056 rad comment: good quality pixels only) where sea"; } total_number_of_degraded_quality_ocean_pixels { String long_name "number of degraded quality sea surface temperature pixels"; Int32 _FillValue -1; String units "count"; String coordinates "retrieval_local_zenith_angle retrieval_solar_zenith_angle t y_image x_image"; String grid_mapping "goes_imager_projection"; String cell_methods "retrieval_local_zenith_angle: sum retrieval_solar_zenith_angle: sum t: sum area: sum (interval: 0.000056 rad comment: degraded quality pixels only) where sea"; } total_number_of_severely_degraded_quality_ocean_pixels { String long_name "number of severely degraded quality sea surface temperature pixels"; Int32 _FillValue -1; String units "count"; String coordinates "retrieval_local_zenith_angle retrieval_solar_zenith_angle t y_image x_image"; String grid_mapping "goes_imager_projection"; String cell_methods "retrieval_local_zenith_angle: sum retrieval_solar_zenith_angle: sum t: sum area: sum (interval: 0.000056 rad comment: severely degraded quality pixels only) where sea"; } total_number_of_unprocessed_pixels { String long_name "number of unprocessed pixels"; Int32 _FillValue -1; String units "count"; String coordinates "retrieval_local_zenith_angle retrieval_solar_zenith_angle t y_image x_image"; String grid_mapping "goes_imager_projection"; String cell_methods "retrieval_local_zenith_angle: sum retrieval_solar_zenith_angle: sum t: sum area: sum (interval: 0.000056 rad comment: invalid due to unprocessed pixels only)"; } number_of_day_SST_pixels { String long_name "number of day sea surface temperature pixels"; Int32 _FillValue -1; String units "count"; String coordinates "quantitative_local_zenith_angle day_solar_zenith_angle t y_image x_image"; String grid_mapping "goes_imager_projection"; String cell_methods "quantitative_local_zenith_angle: sum day_solar_zenith_angle: sum t: sum area: sum (interval: 0.000056 rad comment: good quality pixels only) where sea"; } number_of_night_SST_pixels { String long_name "number of night sea surface temperature pixels"; Int32 _FillValue -1; String units "count"; String coordinates "quantitative_local_zenith_angle night_solar_zenith_angle t y_image x_image"; String grid_mapping "goes_imager_projection"; String cell_methods "quantitative_local_zenith_angle: sum night_solar_zenith_angle: sum t: sum area: sum (interval: 0.000056 rad comment: good quality pixels only) where sea"; } number_of_twilight_SST_pixels { String long_name "number of twilight sea surface temperature pixels"; Int32 _FillValue -1; String units "count"; String coordinates "quantitative_local_zenith_angle night_twilight_solar_zenith_angle t y_image x_image"; String grid_mapping "goes_imager_projection"; String cell_methods "quantitative_local_zenith_angle: sum twilight_solar_zenith_angle: sum t: sum area: sum (interval: 0.000056 rad comment: good quality pixels only) where sea"; } sea_surface_temp_outlier_pixel_count { String long_name "number of sea surface temperature pixels whose value is outside valid measurement range"; Int32 _FillValue -1; String units "count"; String coordinates "quantitative_local_zenith_angle retrieval_solar_zenith_angle t y_image x_image"; String grid_mapping "goes_imager_projection"; String cell_methods "quantitative_local_zenith_angle: sum retrieval_solar_zenith_angle: sum t: sum area: sum (interval: 0.000056 rad comment: good quality pixels whose values are outside valid measurement range only) where sea"; } minimum_sea_surface_temp { String long_name "minimum sea surface temperature"; String standard_name "sea_surface_temperature"; Float32 _FillValue -999.000000; Float32 valid_range 180.000000, 340.000000; String units "K"; String coordinates "quantitative_local_zenith_angle retrieval_solar_zenith_angle t y_image x_image"; String grid_mapping "goes_imager_projection"; String cell_methods "quantitative_local_zenith_angle: sum retrieval_solar_zenith_angle: sum t: sum area: minimum (interval: 0.000056 rad comment: good quality pixels only) where sea"; } maximum_sea_surface_temp { String long_name "maximum sea surface temperature"; String standard_name "sea_surface_temperature"; Float32 _FillValue -999.000000; Float32 valid_range 180.000000, 340.000000; String units "K"; String coordinates "quantitative_local_zenith_angle retrieval_solar_zenith_angle t y_image x_image"; String grid_mapping "goes_imager_projection"; String cell_methods "quantitative_local_zenith_angle: sum retrieval_solar_zenith_angle: sum t: sum area: maximum (interval: 0.000056 rad comment: good quality pixels only) where sea"; } mean_sea_surface_temp { String long_name "mean sea surface temperature"; String standard_name "sea_surface_temperature"; Float32 _FillValue -999.000000; Float32 valid_range 180.000000, 340.000000; String units "K"; String coordinates "quantitative_local_zenith_angle retrieval_solar_zenith_angle t y_image x_image"; String grid_mapping "goes_imager_projection"; String cell_methods "quantitative_local_zenith_angle: sum retrieval_solar_zenith_angle: sum t: sum area: mean (interval: 0.000056 rad comment: good quality pixels only) where sea"; } standard_deviation_sea_surface_temp { String long_name "standard deviation of sea surface temperature values"; String standard_name "sea_surface_temperature"; Float32 _FillValue -999.000000; String units "K"; String coordinates "quantitative_local_zenith_angle retrieval_solar_zenith_angle t y_image x_image"; String grid_mapping "goes_imager_projection"; String cell_methods "quantitative_local_zenith_angle: sum retrieval_solar_zenith_angle: sum t: sum area: standard_deviation (interval: 0.000056 rad comment: good quality pixels only) where sea"; } min_obs_modeled_diff_SST_night_only_emissive_band { String long_name "minimum difference of the observed and modeled brightness temperature (Joint Center for Satellite Data Assimilation Community Radiative Transfer Model using temporally interpolated NWP data as input) for the night only emissive band central wavelength used in the generation of the sea surface temperature product"; Float32 _FillValue -999.000000; String units "K"; String coordinates "quantitative_local_zenith_angle night_solar_zenith_angle SST_night_only_emissive_band_id SST_night_only_emissive_wavelength t y_image x_image"; String grid_mapping "goes_imager_projection"; String cell_methods "quantitative_local_zenith_angle: sum night_solar_zenith_angle: sum t: sum area: minimum (interval: 0.000056 rad comment: good quality pixels only) where sea"; } max_obs_modeled_diff_SST_night_only_emissive_band { String long_name "maximum difference of the observed and modeled brightness temperature (Joint Center for Satellite Data Assimilation Community Radiative Transfer Model using temporally interpolated NWP data as input) for the night only emissive band central wavelength used in the generation of the sea surface temperature product"; Float32 _FillValue -999.000000; String units "K"; String coordinates "quantitative_local_zenith_angle night_solar_zenith_angle SST_night_only_emissive_band_id SST_night_only_emissive_wavelength t y_image x_image"; String grid_mapping "goes_imager_projection"; String cell_methods "quantitative_local_zenith_angle: sum night_solar_zenith_angle: sum t: sum area: maximum (interval: 0.000056 rad comment: good quality pixels only) where sea"; } mean_obs_modeled_diff_SST_night_only_emissive_band { String long_name "mean difference of the observed and modeled brightness temperature (Joint Center for Satellite Data Assimilation Community Radiative Transfer Model using temporally interpolated NWP data as input) for the night only emissive band central wavelength used in the generation of the sea surface temperature product"; Float32 _FillValue -999.000000; String units "K"; String coordinates "quantitative_local_zenith_angle night_solar_zenith_angle SST_night_only_emissive_band_id SST_night_only_emissive_wavelength t y_image x_image"; String grid_mapping "goes_imager_projection"; String cell_methods "quantitative_local_zenith_angle: sum night_solar_zenith_angle: sum t: sum area: mean (interval: 0.000056 rad comment: good quality pixels only) where sea"; } std_dev_obs_modeled_diff_SST_night_only_emissive_band { String long_name "standard deviation of the difference of the observed and modeled brightness temperature (Joint Center for Satellite Data Assimilation Community Radiative Transfer Model using temporally interpolated NWP data as input) values for the night only emissive band central wavelength used in the generation of the sea surface temperature product"; Float32 _FillValue -999.000000; String units "K"; String coordinates "quantitative_local_zenith_angle night_solar_zenith_angle SST_night_only_emissive_band_id SST_night_only_emissive_wavelength t y_image x_image"; String grid_mapping "goes_imager_projection"; String cell_methods "quantitative_local_zenith_angle: sum night_solar_zenith_angle: sum t: sum area: standard_deviation (interval: 0.000056 rad comment: good quality pixels only) where sea"; } min_retrieved_Ancillary_SST_diff { String long_name "minimum difference of the retrieved SST and Ancillary real-time global SST analysis used in the generation of the sea surface temperature product"; Float32 _FillValue -999.000000; String units "K"; String coordinates "quantitative_local_zenith_angle retrieval_solar_zenith_angle t y_image x_image"; String grid_mapping "goes_imager_projection"; String cell_methods "quantitative_local_zenith_angle: sum retrieval_solar_zenith_angle: sum t: sum area: minimum (interval: 0.000056 rad comment: good quality pixels only) where sea"; } max_retrieved_Ancillary_SST_diff { String long_name "maximum difference of the retrieved SST and Ancillary real-time global SST analysis used in the generation of the sea surface temperature product"; Float32 _FillValue -999.000000; String units "K"; String coordinates "quantitative_local_zenith_angle retrieval_solar_zenith_angle t y_image x_image"; String grid_mapping "goes_imager_projection"; String cell_methods "quantitative_local_zenith_angle: sum retrieval_solar_zenith_angle: sum t: sum area: maximum (interval: 0.000056 rad comment: good quality pixels only) where sea"; } mean_retrieved_Ancillary_SST_diff { String long_name "mean difference of the retrieved SST and Ancillary real-time global SST analysis used in the generation of the sea surface temperature product"; Float32 _FillValue -999.000000; String units "K"; String coordinates "quantitative_local_zenith_angle retrieval_solar_zenith_angle t y_image x_image"; String grid_mapping "goes_imager_projection"; String cell_methods "quantitative_local_zenith_angle: sum retrieval_solar_zenith_angle: sum t: sum area: mean (interval: 0.000056 rad comment: good quality pixels only) where sea"; } std_dev_retrieved_Ancillary_SST_diff { String long_name "standard_deviation of the difference of the retrieved SST and Ancillary real-time global SST analysis values used in the generation of the sea surface temperature product"; Float32 _FillValue -999.000000; String units "K"; String coordinates "quantitative_local_zenith_angle retrieval_solar_zenith_angle t y_image x_image"; String grid_mapping "goes_imager_projection"; String cell_methods "quantitative_local_zenith_angle: sum retrieval_solar_zenith_angle: sum t: sum area: standard_deviation (interval: 0.000056 rad comment: good quality pixels only) where sea"; } algorithm_dynamic_input_data_container { String long_name "container for filenames of dynamic algorithm input data"; String input_ABI_L2_auxiliary_solar_zenith_angle_data "{com.env_type.values}{default:OR}_I_ABI-L2-AUX{com.scene_mode.values}{default:X-Mm }_G16_s{com.time_coverage_start_string.values}{default:20000011200000}_e{com.time_coverage_end_string.values}{default:20000011200000}_c*.nc"; String input_ABI_L2_auxiliary_sunglint_angle_data "{com.env_type.values}{default:OR}_I_ABI-L2-AUX{com.scene_mode.values}{default:X-Mm }_G16_s{com.time_coverage_start_string.values}{default:20000011200000}_e{com.time_coverage_end_string.values}{default:20000011200000}_c*.nc"; String input_ABI_L2_brightness_temperature_band_7_2km_data "OR_ABI-L2-CMIF-M6C07_G16_s20242820000206_e20242820059514_c*.nc"; String input_ABI_L2_brightness_temperature_band_14_2km_data "OR_ABI-L2-CMIF-M6C14_G16_s20242820000206_e20242820059514_c*.nc"; String input_ABI_L2_brightness_temperature_band_15_2km_data "OR_ABI-L2-CMIF-M6C15_G16_s20242820000206_e20242820059514_c*.nc"; String input_ABI_L2_intermediate_product_cloud_mask_info_flag_data "null"; String input_ABI_L2_intermediate_product_instantaneous_sea_surface_temperature_data "null"; String input_ABI_L2_intermediate_product_SST_historical_bias_estimate_data "null"; String input_ABI_L2_intermediate_product_CRTM_clear_sky_brightness_temperature_band_7_data "null"; String input_ABI_L2_intermediate_product_CRTM_clear_sky_brightness_temperature_band_14_data "null"; String input_ABI_L2_intermediate_product_CRTM_clear_sky_brightness_temperature_band_15_data "null"; String input_ABI_L2_intermediate_product_CRTM_skin_temperature_derivative_band_7_data "null"; String input_ABI_L2_intermediate_product_CRTM_skin_temperature_derivative_band_14_data "null"; String input_ABI_L2_intermediate_product_CRTM_skin_temperature_derivative_band_15_data "null"; String input_ABI_L2_intermediate_product_CRTM_water_vapor_derivative_band_7_data "null"; String input_ABI_L2_intermediate_product_CRTM_water_vapor_derivative_band_14_data "null"; String input_ABI_L2_intermediate_product_CRTM_water_vapor_derivative_band_15_data "null"; String input_dynamic_ancillary_Ancillary_SST_data "null"; String input_dynamic_ancillary_Ancillary_SST_uncertainty_data "null"; } processing_parm_version_container { String long_name "container for processing parameter filenames"; String L2_processing_parm_version "OR_ABI-L2-PARM-SST_v01r00.zip, OR_ANC-L2-PARM-SEMISTATIC_v01r00.zip, OR_ANC-L2-PARM-ANCILLARY_v01r00.zip, OR_ABI-L2-PARM-AUXILIARY_v01r00.zip, OR_ANC-L2-PARM-TARP_v01r00.zip"; } algorithm_product_version_container { String long_name "container for algorithm package filename and product version"; String algorithm_version "OR_ABI-L2-ALG-SST_v01r00.zip"; String product_version "v01r00"; } retrieval_local_zenith_angle { String long_name "threshold angle between the line of sight to the satellite and the local zenith at the observation target for good or degraded quality sea surface (skin) temperature data production"; String standard_name "platform_zenith_angle"; String units "degree"; String bounds "retrieval_local_zenith_angle_bounds"; } quantitative_local_zenith_angle { String long_name "threshold angle between the line of sight to the satellite and the local zenith at the observation target for good quality sea surface (skin) temperature data production"; String standard_name "platform_zenith_angle"; String units "degree"; String bounds "quantitative_local_zenith_angle_bounds"; } retrieval_local_zenith_angle_bounds { String long_name "local zenith angle degree range where good or degraded quality sea surface (skin) temperature data is produced"; } quantitative_local_zenith_angle_bounds { String long_name "local zenith angle degree range where good quality sea surface (skin) temperature data is produced"; } retrieval_solar_zenith_angle { String long_name "threshold angle between the line of sight to the sun and the local zenith at the observation target for good quality sea surface (skin) temperature data production"; String standard_name "solar_zenith_angle"; String units "degree"; String bounds "retrieval_solar_zenith_angle_bounds"; } day_solar_zenith_angle { String long_name "threshold angle of the day region for the angle between the line of sight to the sun and the local zenith at the observation target"; String standard_name "solar_zenith_angle"; String units "degree"; String bounds "day_solar_zenith_angle_bounds"; } night_solar_zenith_angle { String long_name "threshold angle of the night region for the angle between the line of sight to the sun and the local zenith at the observation target"; String standard_name "solar_zenith_angle"; String units "degree"; String bounds "night_solar_zenith_angle_bounds"; } twilight_solar_zenith_angle { String long_name "midpoint of the twilight region for the angle between the line of sight to the sun and the local zenith at the observation target"; String standard_name "solar_zenith_angle"; String units "degree"; String bounds "twilight_solar_zenith_angle_bounds"; } retrieval_solar_zenith_angle_bounds { String long_name "solar zenith angle degree range where good quality sea surface (skin) temperature data is produced"; } day_solar_zenith_angle_bounds { String long_name "solar zenith angle degree range for the day region"; } night_solar_zenith_angle_bounds { String long_name "solar zenith angle degree range for the night region"; } twilight_solar_zenith_angle_bounds { String long_name "solar zenith angle degree range for the twilight region"; } SST_night_only_emissive_wavelength { String long_name "ABI band central emissive wavelength used to generate Sea Surface (Skin) Temperature product (night pixels only)"; String standard_name "sensor_band_central_radiation_wavelength"; String units "um"; } SST_day_night_emissive_wavelengths { String long_name "ABI band central emissive wavelengths used to generate Sea Surface (Skin) Temperature product (day and night pixels)"; String standard_name "sensor_band_central_radiation_wavelength"; String units "um"; } SST_night_only_emissive_band_id { String long_name "ABI band identifier used to generate Sea Surface (Skin) Temperature product (night pixels only)"; String standard_name "sensor_band_identifier"; String units "1"; } SST_day_night_emissive_band_ids { String long_name "ABI band identifiers used to generate Sea Surface (Skin) Temperature product (day and night pixels)"; String standard_name "sensor_band_identifier"; String units "1"; } percent_uncorrectable_GRB_errors { String long_name "percent data lost due to uncorrectable GRB errors"; Float32 _FillValue -999.000000; Float32 valid_range 0.00000000, 1.00000000; String units "percent"; String coordinates "t y_image x_image"; String grid_mapping "goes_imager_projection"; String cell_methods "t: sum area: sum (uncorrectable GRB errors only)"; } percent_uncorrectable_L0_errors { String long_name "percent data lost due to uncorrectable L0 errors"; Float32 _FillValue -999.000000; Float32 valid_range 0.00000000, 1.00000000; String units "percent"; String coordinates "t y_image x_image"; String grid_mapping "goes_imager_projection"; String cell_methods "t: sum area: sum (uncorrectable L0 errors only)"; } NC_GLOBAL { String naming_authority "gov.nesdis.noaa"; String Conventions "CF-1.7"; String Metadata_Conventions "Unidata Dataset Discovery v1.0"; String standard_name_vocabulary "CF Standard Name Table (v35, 20 July 2016)"; String institution "DOC/NOAA/NESDIS > U.S. Department of Commerce, National Oceanic and Atmospheric Administration, National Environmental Satellite, Data, and Information Services"; String project "GOES"; String production_site "NSOF"; String production_environment "OE"; String spatial_resolution "2km at nadir"; String orbital_slot "GOES-East"; String platform_ID "G16"; String instrument_type "GOES-R Series Advanced Baseline Imager (ABI)"; String scene_id "Full Disk"; String instrument_ID "FM1"; String dataset_name "OR_ABI-L2-SSTF-M6_G16_s20242820000206_e20242820059514_c20242820104416.nc"; String iso_series_metadata_id "d70be540-c38a-11e0-962b-0800200c9a66"; String title "ABI L2 Sea Surface (Skin) Temperature"; String summary "The ABI Sea Surface Temperature (SST) is calculated using a 4-band (8.44, 10.33, 11.19, and 12.27 um) non-linear SST (NLSST) regression equation with coefficients calculated using match-ups with in situ SSTs from drifting and tropical moored buoys. Hence on average, ABI SST is close to in situ (bulk) SST, but its spatial and temporal variations are representative of skin SST (to which ABI BTs are sensitive). One regression equation, and one set of regression coefficients are used across day and night, resulting in consistent and continuous SST diurnal cycle. Note that SST is reported over all water pixels, and only data with quality flag DQF=0 should be used to select clear-sky pixels."; String keywords "OCEANS > OCEAN TEMPERATURE > SEA SURFACE TEMPERATURE"; String keywords_vocabulary "NASA Global Change Master Directory (GCMD) Earth Science Keywords, Version 7.0.0.0.0"; String license "Unclassified data. Access is restricted to approved users only."; String processing_level "National Aeronautics and Space Administration (NASA) L2"; String date_created "2024-10-08T01:04:41.6Z"; String cdm_data_type "Image"; String time_coverage_start "2024-10-08T00:00:20.6Z"; String time_coverage_end "2024-10-08T00:59:51.4Z"; String timeline_id "ABI Mode 6"; String production_data_source "Realtime"; String long_name "standard deviation of the difference of the observed and modeled brightness temperature (Joint Center for Satellite Data Assimilation Community Radiative Transfer Model using temporally interpolated NWP data as input) values for the day and night emissive band central wavelengths used in the generation of the sea surface temperature product"; Float32 _FillValue -999.000000; String units "K"; String coordinates "quantitative_local_zenith_angle retrieval_solar_zenith_angle SST_day_night_emissive_band_ids SST_day_night_emissive_wavelengths t y_image x_image"; String grid_mapping "goes_imager_projection"; String cell_methods "quantitative_local_zenith_angle: sum retrieval_solar_zenith_angle: sum t: sum area: standard_deviation (interval: 0.000056 rad comment: good quality pixels only) where sea"; String id "d6998d20-84c9-4390-aa64-05ece4f246eb"; } }