Attributes {
HDF5_ROOT_GROUP {
AerosolResults {
String Dataset "aerosol_aod", "aerosol_model", "aerosol_param", "aerosol_param_apriori", "aerosol_param_uncert", "aerosol_total_aod", "aerosol_type_retrieved";
}
BRDFResults {
String Dataset "brdf_anisotropy_parameter_o2", "brdf_anisotropy_parameter_strong_co2", "brdf_anisotropy_parameter_weak_co2", "brdf_asymmetry_parameter_o2", "brdf_asymmetry_parameter_strong_co2", "brdf_asymmetry_parameter_weak_co2", "brdf_breon_factor_o2", "brdf_breon_factor_strong_co2", "brdf_breon_factor_weak_co2", "brdf_hotspot_parameter_o2", "brdf_hotspot_parameter_strong_co2", "brdf_hotspot_parameter_weak_co2", "brdf_rahman_factor_o2", "brdf_rahman_factor_strong_co2", "brdf_rahman_factor_weak_co2", "brdf_reflectance_apriori_o2", "brdf_reflectance_apriori_strong_co2", "brdf_reflectance_apriori_weak_co2", "brdf_reflectance_o2", "brdf_reflectance_quadratic_apriori_o2", "brdf_reflectance_quadratic_apriori_strong_co2", "brdf_reflectance_quadratic_apriori_weak_co2", "brdf_reflectance_quadratic_o2", "brdf_reflectance_quadratic_strong_co2", "brdf_reflectance_quadratic_uncert_o2", "brdf_reflectance_quadratic_uncert_strong_co2", "brdf_reflectance_quadratic_uncert_weak_co2", "brdf_reflectance_quadratic_weak_co2", "brdf_reflectance_slope_apriori_o2", "brdf_reflectance_slope_apriori_strong_co2", "brdf_reflectance_slope_apriori_weak_co2", "brdf_reflectance_slope_o2", "brdf_reflectance_slope_strong_co2", "brdf_reflectance_slope_uncert_o2", "brdf_reflectance_slope_uncert_strong_co2", "brdf_reflectance_slope_uncert_weak_co2", "brdf_reflectance_slope_weak_co2", "brdf_reflectance_strong_co2", "brdf_reflectance_uncert_o2", "brdf_reflectance_uncert_strong_co2", "brdf_reflectance_uncert_weak_co2", "brdf_reflectance_weak_co2", "brdf_weight_apriori_o2", "brdf_weight_apriori_strong_co2", "brdf_weight_apriori_weak_co2", "brdf_weight_o2", "brdf_weight_quadratic_apriori_o2", "brdf_weight_quadratic_apriori_strong_co2", "brdf_weight_quadratic_apriori_weak_co2", "brdf_weight_quadratic_o2", "brdf_weight_quadratic_strong_co2", "brdf_weight_quadratic_uncert_o2", "brdf_weight_quadratic_uncert_strong_co2", "brdf_weight_quadratic_uncert_weak_co2", "brdf_weight_quadratic_weak_co2", "brdf_weight_slope_apriori_o2", "brdf_weight_slope_apriori_strong_co2", "brdf_weight_slope_apriori_weak_co2", "brdf_weight_slope_o2", "brdf_weight_slope_strong_co2", "brdf_weight_slope_uncert_o2", "brdf_weight_slope_uncert_strong_co2", "brdf_weight_slope_uncert_weak_co2", "brdf_weight_slope_weak_co2", "brdf_weight_strong_co2", "brdf_weight_uncert_o2", "brdf_weight_uncert_strong_co2", "brdf_weight_uncert_weak_co2", "brdf_weight_weak_co2";
}
Dimensions {
AerosolParam {
}
AerosolSubColumn {
}
AerosolType {
}
AlbedoWavelength {
}
AncFile {
}
EuclidDim {
}
Frame {
}
Gap {
}
InputPtr {
}
L2FullPhysicsInputPtr {
}
Layer {
}
Level {
}
MetLevel {
}
O2Slice {
}
OrbitParamPtr {
}
Retrieval {
}
Sounding {
}
SoundingPosition {
}
Spectrum {
}
StrongCO2Slice {
}
Vertex {
}
WeakCO2Slice {
}
}
DispersionResults {
String Dataset "dispersion_offset_apriori_o2", "dispersion_offset_apriori_strong_co2", "dispersion_offset_apriori_weak_co2", "dispersion_offset_o2", "dispersion_offset_strong_co2", "dispersion_offset_uncert_o2", "dispersion_offset_uncert_strong_co2", "dispersion_offset_uncert_weak_co2", "dispersion_offset_weak_co2", "dispersion_spacing_apriori_o2", "dispersion_spacing_apriori_strong_co2", "dispersion_spacing_apriori_weak_co2", "dispersion_spacing_o2", "dispersion_spacing_strong_co2", "dispersion_spacing_uncert_o2", "dispersion_spacing_uncert_strong_co2", "dispersion_spacing_uncert_weak_co2", "dispersion_spacing_weak_co2";
}
FootprintMeteorology {
String Dataset "footprint_surface_pressure_met";
}
L1bScSoundingReference {
String Dataset "packaging_qual_flag", "retrieval_index", "selection_flag_sel", "sounding_id_l1b", "sounding_qual_flag";
}
L1bScSpectralParameters {
String Dataset "max_declocking_factor_o2", "max_declocking_factor_strong_co2", "max_declocking_factor_weak_co2", "rad_continuum_o2", "rad_continuum_strong_co2", "rad_continuum_weak_co2", "rad_mean_spectra_o2", "rad_mean_spectra_strong_co2", "rad_mean_spectra_weak_co2", "rad_stddev_spectra_o2", "rad_stddev_spectra_strong_co2", "rad_stddev_spectra_weak_co2", "snr_o2_l1b", "snr_strong_co2_l1b", "snr_weak_co2_l1b", "sounding_color_slice_mean_o2", "sounding_color_slice_mean_strong_co2", "sounding_color_slice_mean_weak_co2", "sounding_color_slice_noise_ratio_o2", "sounding_color_slice_noise_ratio_strong_co2", "sounding_color_slice_noise_ratio_weak_co2", "sounding_color_slice_o2_qual_flag", "sounding_color_slice_quadratic_o2", "sounding_color_slice_quadratic_strong_co2", "sounding_color_slice_quadratic_weak_co2", "sounding_color_slice_slope_o2", "sounding_color_slice_slope_strong_co2", "sounding_color_slice_slope_weak_co2", "sounding_color_slice_stddev_o2", "sounding_color_slice_stddev_strong_co2", "sounding_color_slice_stddev_weak_co2", "sounding_color_slice_strong_co2_qual_flag", "sounding_color_slice_weak_co2_qual_flag", "spike_eof_bad_colors_o2", "spike_eof_bad_colors_strong_co2", "spike_eof_bad_colors_weak_co2";
}
Metadata {
String Dataset "ARPAncillaryDatasetDescriptor", "AbscoCO2Scale", "AbscoH2OScale", "AbscoO2Scale", "AcquisitionMode", "ActualFrames", "ActualGoodRetrievals", "ActualRetrievals", "AllAerosolTypes", "AncillaryDataDescriptors", "AscendingEquatorCrossingDate", "AscendingEquatorCrossingLongitude", "AscendingEquatorCrossingTime", "BuildId", "CollectionLabel", "ColorSlicePositionO2", "ColorSlicePositionStrongCO2", "ColorSlicePositionWeakCO2", "DataFormatType", "EphemerisType", "EquatorCrossingDate", "EquatorCrossingLongitude", "EquatorCrossingTime", "ExpectedFrames", "FirstSoundingId", "GapStartTime", "GapStopTime", "GranulePointer", "HDFVersionId", "InputPointer", "InstrumentShortName", "L2FullPhysicsAlgorithmDescriptor", "L2FullPhysicsDataVersion", "L2FullPhysicsExeVersion", "L2FullPhysicsInputPointer", "L2FullPhysicsProductionLocation", "LastSoundingId", "LongName", "ModeCounter", "OperationMode", "OrbitEccentricity", "OrbitInclination", "OrbitParametersPointer", "OrbitPeriod", "OrbitSemiMajorAxis", "OrbitStartDate", "OrbitStartLongitude", "OrbitStartTime", "PlatformLongName", "PlatformShortName", "PlatformType", "ProcessingLevel", "ProducerAgency", "ProducerInstitution", "ProductionDateTime", "ProductionLocation", "ProductionLocationCode", "ProjectId", "QAGranulePointer", "RadianceConversionFactor", "RangeBeginningDate", "RangeBeginningTime", "RangeEndingDate", "RangeEndingTime", "ReportedSoundings", "RetrievalIterationLimit", "SISName", "SISVersion", "ShortName", "SizeMBECSDataGranule", "SpectralChannel", "StartOrbitNumber", "StartPathNumber", "StopOrbitNumber", "StopPathNumber", "VMRO2";
}
PreprocessingResults {
String Dataset "albedo_o2_abp", "cloud_flag_abp", "cloud_flag_idp", "co2_column_strong_band_apriori_idp", "co2_column_strong_band_idp", "co2_column_strong_band_uncert_idp", "co2_column_weak_band_apriori_idp", "co2_column_weak_band_idp", "co2_column_weak_band_uncert_idp", "co2_ratio_idp", "co2_strong_band_processing_flag_idp", "co2_weak_band_processing_flag_idp", "dispersion_multiplier_abp", "dry_air_column_apriori_idp", "fluorescence_offset_relative_757nm_idp", "fluorescence_offset_relative_771nm_idp", "fluorescence_qual_flag_idp", "fluorescence_radiance_757nm_idp", "fluorescence_radiance_757nm_uncert_idp", "fluorescence_radiance_771nm_idp", "fluorescence_radiance_771nm_uncert_idp", "h2o_ratio_idp", "h2o_ratio_uncert_idp", "noise_o2_abp", "o2_ratio_idp", "reduced_chi_squared_o2_abp", "reduced_chi_squared_o2_threshold_abp", "sea_ice_flag_abp", "selection_priority", "signal_o2_abp", "snr_o2_abp", "surface_pressure_abp", "surface_pressure_apriori_abp", "surface_pressure_delta_abp", "surface_pressure_offset_abp", "temperature_offset_abp";
}
RetrievalGeometry {
String Dataset "retrieval_altitude", "retrieval_altitude_per_band", "retrieval_altitude_uncert", "retrieval_aspect", "retrieval_azimuth", "retrieval_center_offset_o2_weak_co2", "retrieval_center_offset_strong_co2_o2", "retrieval_center_offset_weak_co2_strong_co2", "retrieval_land_fraction", "retrieval_land_water_indicator", "retrieval_latitude", "retrieval_latitude_geoid", "retrieval_longitude", "retrieval_longitude_geoid", "retrieval_los_surface_bidirectional_angle", "retrieval_num_topo_points", "retrieval_overlap", "retrieval_overlap_o2_weak_co2", "retrieval_overlap_strong_co2_o2", "retrieval_overlap_weak_co2_strong_co2", "retrieval_plane_fit_quality", "retrieval_polarization_angle", "retrieval_relative_velocity", "retrieval_slant_path_diff_o2_weak_co2", "retrieval_slant_path_diff_strong_co2_o2", "retrieval_slant_path_diff_weak_co2_strong_co2", "retrieval_slope", "retrieval_solar_azimuth", "retrieval_solar_distance", "retrieval_solar_relative_velocity", "retrieval_solar_surface_bidirectional_angle", "retrieval_solar_zenith", "retrieval_surface_roughness", "retrieval_vertex_latitude", "retrieval_vertex_longitude", "retrieval_zenith";
}
RetrievalHeader {
String Dataset "frame_index", "retrieval_time_string", "retrieval_time_tai93", "sounding_id", "sounding_index", "sounding_operation_mode";
}
RetrievalResults {
String Dataset "apriori_o2_column", "co2_profile", "co2_profile_apriori", "co2_profile_averaging_kernel_matrix", "co2_profile_covariance_matrix", "co2_profile_uncert", "co2_vertical_gradient_delta", "diverging_steps", "dof_co2_profile", "dof_full_vector", "eof_1_scale_apriori_o2", "eof_1_scale_apriori_strong_co2", "eof_1_scale_apriori_weak_co2", "eof_1_scale_o2", "eof_1_scale_strong_co2", "eof_1_scale_uncert_o2", "eof_1_scale_uncert_strong_co2", "eof_1_scale_uncert_weak_co2", "eof_1_scale_weak_co2", "eof_2_scale_apriori_o2", "eof_2_scale_apriori_strong_co2", "eof_2_scale_apriori_weak_co2", "eof_2_scale_o2", "eof_2_scale_strong_co2", "eof_2_scale_uncert_o2", "eof_2_scale_uncert_strong_co2", "eof_2_scale_uncert_weak_co2", "eof_2_scale_weak_co2", "eof_3_scale_apriori_o2", "eof_3_scale_apriori_strong_co2", "eof_3_scale_apriori_weak_co2", "eof_3_scale_o2", "eof_3_scale_strong_co2", "eof_3_scale_uncert_o2", "eof_3_scale_uncert_strong_co2", "eof_3_scale_uncert_weak_co2", "eof_3_scale_weak_co2", "fluorescence_at_reference", "fluorescence_at_reference_apriori", "fluorescence_at_reference_uncert", "fluorescence_slope", "fluorescence_slope_apriori", "fluorescence_slope_uncert", "h2o_scale_factor", "h2o_scale_factor_apriori", "h2o_scale_factor_uncert", "iterations", "last_step_levenberg_marquardt_parameter", "num_active_levels", "outcome_flag", "retrieved_co2_column", "retrieved_dry_air_column_layer_thickness", "retrieved_h2o_column", "retrieved_h2o_column_layer_thickness", "retrieved_o2_column", "retrieved_wet_air_column_layer_thickness", "specific_humidity_profile_met", "surface_pressure_apriori_fph", "surface_pressure_fph", "surface_pressure_uncert_fph", "surface_type", "temperature_offset_apriori_fph", "temperature_offset_fph", "temperature_offset_uncert_fph", "temperature_profile_met", "tropopause_altitude", "tropopause_pressure", "vector_altitude_levels", "vector_altitude_levels_apriori", "vector_pressure_levels", "vector_pressure_levels_apriori", "vector_pressure_levels_met", "wind_speed", "wind_speed_apriori", "wind_speed_u_met", "wind_speed_uncert", "wind_speed_v_met", "xco2", "xco2_apriori", "xco2_avg_kernel", "xco2_avg_kernel_norm", "xco2_pressure_weighting_function", "xco2_uncert", "xco2_uncert_interf", "xco2_uncert_noise", "xco2_uncert_smooth";
}
Shapes {
AerosolType_Array {
}
AncFile_Array {
}
Frame_Sounding_Array {
}
Gap_Array {
}
InputPtr_Array {
}
L2FullPhysicsInputPtr_Array {
}
O2Slice_Array {
}
OrbitParamPtr_Array {
}
Retrieval_AerosolType_AerosolParam_Array {
}
Retrieval_AerosolType_AerosolSubColumn_Array {
}
Retrieval_AerosolType_Array {
}
Retrieval_AlbedoWavelength_Array {
}
Retrieval_Array {
}
Retrieval_EuclidDim_Array {
}
Retrieval_Layer_Array {
}
Retrieval_Level_Array {
}
Retrieval_Level_Level_Array {
}
Retrieval_MetLevel_Array {
}
Retrieval_O2Slice_Array {
}
Retrieval_Spectrum_Array {
}
Retrieval_Spectrum_Vertex_Array {
}
Retrieval_StrongCO2Slice_Array {
}
Retrieval_WeakCO2Slice_Array {
}
Scalar {
}
SoundingPosition_Array {
}
Spectrum_Array {
}
StrongCO2Slice_Array {
}
WeakCO2Slice_Array {
}
}
SpectralParameters {
String Dataset "noise_o2_fph", "noise_strong_co2_fph", "noise_weak_co2_fph", "reduced_chi_squared_o2_fph", "reduced_chi_squared_strong_co2_fph", "reduced_chi_squared_weak_co2_fph", "relative_residual_mean_square_o2", "relative_residual_mean_square_strong_co2", "relative_residual_mean_square_weak_co2", "residual_mean_square_o2", "residual_mean_square_strong_co2", "residual_mean_square_weak_co2", "signal_o2_fph", "signal_strong_co2_fph", "signal_weak_co2_fph";
}
}
H5_GLOBAL {
String HDF5_OBJ_FULLPATH "H5_GLOBAL";
String gesdisc_collection "11r";
String identifier_product_doi "10.5067/8Z3QQKHC4R4C";
String identifier_product_doi_authority "https://dx.doi.org/";
}
/AerosolResults/ {
String HDF5_OBJ_FULLPATH "/AerosolResults/";
}
/AerosolResults/aerosol_aod {
String HDF5_OBJ_FULLPATH "/AerosolResults/aerosol_aod";
String Description ">Retrieved column-integrated aerosol optical depth for column segment: [Total, Low, Med, High].";
String Shape "Retrieval_AerosolType_AerosolSubColumn_Array";
String Type "Float32";
}
/AerosolResults/aerosol_model {
String HDF5_OBJ_FULLPATH "/AerosolResults/aerosol_model";
String Description "Aerosol model used, if retrieved, one of: [profile_linear, profile_log, linear_aod, gaussian_linear, gaussian_log].";
String Shape "Retrieval_AerosolType_Array";
String Type "FixLenStr";
}
/AerosolResults/aerosol_param {
String HDF5_OBJ_FULLPATH "/AerosolResults/aerosol_param";
String Description "Retrieved aerosol parameter value.";
String Shape "Retrieval_AerosolType_AerosolParam_Array";
String Type "Float32";
}
/AerosolResults/aerosol_param_apriori {
String HDF5_OBJ_FULLPATH "/AerosolResults/aerosol_param_apriori";
String Description "A priori of retrieved aerosol parameter.";
String Shape "Retrieval_AerosolType_AerosolParam_Array";
String Type "Float32";
}
/AerosolResults/aerosol_param_uncert {
String HDF5_OBJ_FULLPATH "/AerosolResults/aerosol_param_uncert";
String Description "Uncertainty of retrieved aerosol parameter.";
String Shape "Retrieval_AerosolType_AerosolParam_Array";
String Type "Float32";
}
/AerosolResults/aerosol_total_aod {
String HDF5_OBJ_FULLPATH "/AerosolResults/aerosol_total_aod";
String Description "Retrieved total column-integrated aerosol optical depth for all aerosol types.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/AerosolResults/aerosol_type_retrieved {
String HDF5_OBJ_FULLPATH "/AerosolResults/aerosol_type_retrieved";
String Description "Flag that indicates whether aerosol type was retrieved or not (1 yes, 0 no).";
String Shape "Retrieval_AerosolType_Array";
String Type "Signed8";
}
/BRDFResults/ {
String HDF5_OBJ_FULLPATH "/BRDFResults/";
}
/BRDFResults/brdf_anisotropy_parameter_o2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_anisotropy_parameter_o2";
String Description "RPV kernel anisotropy parameter for ABO2 band (set to 0.75).";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_anisotropy_parameter_strong_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_anisotropy_parameter_strong_co2";
String Description "RPV kernel anisotropy parameter for SCO2 band (set to 0.75).";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_anisotropy_parameter_weak_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_anisotropy_parameter_weak_co2";
String Description "RPV kernel anisotropy parameter for WCO2 band (set to 0.75).";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_asymmetry_parameter_o2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_asymmetry_parameter_o2";
String Description "RPV kernel asymmetry parameter for ABO2 band (set to -0.1).";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_asymmetry_parameter_strong_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_asymmetry_parameter_strong_co2";
String Description "RPV kernel asymmetry parameter for SCO2 band (set to -0.1).";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_asymmetry_parameter_weak_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_asymmetry_parameter_weak_co2";
String Description "RPV kernel asymmetry parameter for WCO2 band (set to -0.1).";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_breon_factor_o2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_breon_factor_o2";
String Description "Amplitude factor applied for Breon part of BRDF for ABO2 band (set to 1e-20).";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_breon_factor_strong_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_breon_factor_strong_co2";
String Description "Amplitude factor applied for Breon part of BRDF for SCO2 band (set to 1e-20).";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_breon_factor_weak_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_breon_factor_weak_co2";
String Description "Amplitude factor applied for Breon part of BRDF for WCO2 band (set to 1e-20).";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_hotspot_parameter_o2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_hotspot_parameter_o2";
String Description "RPV kernel hotspot parameter for ABO2 band (set to 0.05).";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_hotspot_parameter_strong_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_hotspot_parameter_strong_co2";
String Description "RPV kernel hotspot parameter for SCO2 band (set to 0.05).";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_hotspot_parameter_weak_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_hotspot_parameter_weak_co2";
String Description "RPV kernel hotspot parameter for WCO2 band (set to 0.05).";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_rahman_factor_o2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_rahman_factor_o2";
String Description "Amplitude factor for Rahman (RPV) part of BRDF for ABO2 band (set to 1.0).";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_rahman_factor_strong_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_rahman_factor_strong_co2";
String Description "Amplitude factor for Rahman (RPV) part of BRDF for SCO2 band (set to 1.0).";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_rahman_factor_weak_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_rahman_factor_weak_co2";
String Description "Amplitude factor for Rahman (RPV) part of BRDF for WCO2 band (set to 1.0).";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_reflectance_apriori_o2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_reflectance_apriori_o2";
String Description "A priori of retrieved reflectance, computed from BRDF evaluated at the observation geometry, at 0.77 micron wavelength.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_reflectance_apriori_strong_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_reflectance_apriori_strong_co2";
String Description "A priori of retrieved reflectance, computed from BRDF evaluated at the observation geometry, at 2.06 micron wavelength.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_reflectance_apriori_weak_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_reflectance_apriori_weak_co2";
String Description "A priori of retrieved reflectance, computed from BRDF evaluated at the observation geometry, at 1.615 micron wavelength.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_reflectance_o2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_reflectance_o2";
String Description "Retrieved reflectance, computed from BRDF evaluated at the observation geometry, at 0.77 micron wavelength.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_reflectance_quadratic_apriori_o2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_reflectance_quadratic_apriori_o2";
String Description "A priori of retrieved quadtratic spectral dependence of reflectance in ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-2}";
}
/BRDFResults/brdf_reflectance_quadratic_apriori_strong_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_reflectance_quadratic_apriori_strong_co2";
String Description "A priori of retrieved quadratic spectral dependence of reflectance in SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-2}";
}
/BRDFResults/brdf_reflectance_quadratic_apriori_weak_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_reflectance_quadratic_apriori_weak_co2";
String Description "A priori of retrieved quadratic spectral dependence of reflectance in WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-2}";
}
/BRDFResults/brdf_reflectance_quadratic_o2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_reflectance_quadratic_o2";
String Description "Retrieved quadratic spectral dependence of reflectance in ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-2}";
}
/BRDFResults/brdf_reflectance_quadratic_strong_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_reflectance_quadratic_strong_co2";
String Description "Retrieved quadratic spectral dependence of reflectance in SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-2}";
}
/BRDFResults/brdf_reflectance_quadratic_uncert_o2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_reflectance_quadratic_uncert_o2";
String Description "Uncertainty of retrieved quadratic spectral dependence of reflectance in ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-2}";
}
/BRDFResults/brdf_reflectance_quadratic_uncert_strong_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_reflectance_quadratic_uncert_strong_co2";
String Description "Uncertainty of retrieved quadratic spectral dependence of reflectance in SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-2}";
}
/BRDFResults/brdf_reflectance_quadratic_uncert_weak_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_reflectance_quadratic_uncert_weak_co2";
String Description "Uncertainty of retrieved quadratic spectral dependence of reflectance in WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-2}";
}
/BRDFResults/brdf_reflectance_quadratic_weak_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_reflectance_quadratic_weak_co2";
String Description "Retrieved quadratic spectral dependence of reflectance in WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-2}";
}
/BRDFResults/brdf_reflectance_slope_apriori_o2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_reflectance_slope_apriori_o2";
String Description "A priori of retrieved linear spectral dependence of reflectance in ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-1}";
}
/BRDFResults/brdf_reflectance_slope_apriori_strong_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_reflectance_slope_apriori_strong_co2";
String Description "A priori of retrieved linear spectral dependence of reflectance in SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-1}";
}
/BRDFResults/brdf_reflectance_slope_apriori_weak_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_reflectance_slope_apriori_weak_co2";
String Description "A priori of retrieved linear spectral dependence of reflectance in WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-1}";
}
/BRDFResults/brdf_reflectance_slope_o2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_reflectance_slope_o2";
String Description "Retrieved linear spectral dependence of reflectance in ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-1}";
}
/BRDFResults/brdf_reflectance_slope_strong_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_reflectance_slope_strong_co2";
String Description "Retrieved linear spectral dependence of reflectance in SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-1}";
}
/BRDFResults/brdf_reflectance_slope_uncert_o2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_reflectance_slope_uncert_o2";
String Description "Uncertainty of retrieved linear spectral dependence of reflectance in ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-1}";
}
/BRDFResults/brdf_reflectance_slope_uncert_strong_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_reflectance_slope_uncert_strong_co2";
String Description "Uncertainty of retrieved linear spectral dependence of reflectance in SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-1}";
}
/BRDFResults/brdf_reflectance_slope_uncert_weak_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_reflectance_slope_uncert_weak_co2";
String Description "Uncertainty of retrieved linear spectral dependence of reflectance in WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-1}";
}
/BRDFResults/brdf_reflectance_slope_weak_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_reflectance_slope_weak_co2";
String Description "Retrieved linear spectral dependence of reflectance in WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-1}";
}
/BRDFResults/brdf_reflectance_strong_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_reflectance_strong_co2";
String Description "Retrieved reflectance, computed from BRDF evaluated at the observation geometry, at 2.06 micron wavelength.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_reflectance_uncert_o2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_reflectance_uncert_o2";
String Description "Uncertainty of retrieved reflectance, computed from BRDF evaluated at the observation geometry, at 0.77 micron wavelength.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_reflectance_uncert_strong_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_reflectance_uncert_strong_co2";
String Description "Uncertainty of retrieved reflectance, computed from BRDF evaluated at the observation geometry, at 2.06 micron wavelength.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_reflectance_uncert_weak_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_reflectance_uncert_weak_co2";
String Description "Uncertainty of retrieved reflectance, computed from BRDF evaluated at the observation geometry, at 1.615 micron wavelength.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_reflectance_weak_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_reflectance_weak_co2";
String Description "Retrieved reflectance, computed from BRDF evaluated at the observation geometry, at 1.615 micron wavelength.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_weight_apriori_o2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_weight_apriori_o2";
String Description "A priori of overall retrieved weight for the composite BRDF, at reference wavelength, for ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_weight_apriori_strong_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_weight_apriori_strong_co2";
String Description "A priori of overall retrieved weight for the composite BRDF, at reference wavelength, for SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_weight_apriori_weak_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_weight_apriori_weak_co2";
String Description "A priori of overall retrieved weight for the composite BRDF, at reference wavelength, for WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_weight_o2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_weight_o2";
String Description "Overall retrieved weight for the composite BRDF, at reference wavelength, for ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_weight_quadratic_apriori_o2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_weight_quadratic_apriori_o2";
String Description "A priori of overall retrieved in-band quadratic of the weight for the composite BRDF for ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-2}";
}
/BRDFResults/brdf_weight_quadratic_apriori_strong_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_weight_quadratic_apriori_strong_co2";
String Description "A priori of overall retrieved in-band quadratic of the weight for the composite BRDF for SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-2}";
}
/BRDFResults/brdf_weight_quadratic_apriori_weak_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_weight_quadratic_apriori_weak_co2";
String Description "A priori of overall retrieved in-band quadratic of the weight for the composite BRDF for WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-2}";
}
/BRDFResults/brdf_weight_quadratic_o2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_weight_quadratic_o2";
String Description "Overall retrieved in-band quadratic of the weight for the composite BRDF for ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-2}";
}
/BRDFResults/brdf_weight_quadratic_strong_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_weight_quadratic_strong_co2";
String Description "Overall retrieved in-band quadratic of the weight for the composite BRDF for SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-2}";
}
/BRDFResults/brdf_weight_quadratic_uncert_o2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_weight_quadratic_uncert_o2";
String Description "Uncertainty of overall retrieved in-band quadratic of the weight for the composite BRDF for ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-2}";
}
/BRDFResults/brdf_weight_quadratic_uncert_strong_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_weight_quadratic_uncert_strong_co2";
String Description "Uncertainty of overall retrieved in-band quadratic of the weight for the composite BRDF for SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-2}";
}
/BRDFResults/brdf_weight_quadratic_uncert_weak_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_weight_quadratic_uncert_weak_co2";
String Description "Uncertainty of overall retrieved in-band quadratic of the weight for the composite BRDF for SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-2}";
}
/BRDFResults/brdf_weight_quadratic_weak_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_weight_quadratic_weak_co2";
String Description "Overall retrieved in-band quadratic of the weight for the composite BRDF for WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-2}";
}
/BRDFResults/brdf_weight_slope_apriori_o2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_weight_slope_apriori_o2";
String Description "A priori of overall retrieved in-band slope of the weight for the composite BRDF for ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-1}";
}
/BRDFResults/brdf_weight_slope_apriori_strong_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_weight_slope_apriori_strong_co2";
String Description "A priori of overall retrieved in-band slope of the weight for the composite BRDF for SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-1}";
}
/BRDFResults/brdf_weight_slope_apriori_weak_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_weight_slope_apriori_weak_co2";
String Description "A priori of overall retrieved in-band slope of the weight for the composite BRDF for WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-1}";
}
/BRDFResults/brdf_weight_slope_o2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_weight_slope_o2";
String Description "Overall retrieved in-band slope of the weight for the composite BRDF for ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-1}";
}
/BRDFResults/brdf_weight_slope_strong_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_weight_slope_strong_co2";
String Description "Overall retrieved in-band slope of the weight for the composite BRDF for SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-1}";
}
/BRDFResults/brdf_weight_slope_uncert_o2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_weight_slope_uncert_o2";
String Description "Uncertainty of overall retrieved in-band slope of the weight for the composite BRDF for ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-1}";
}
/BRDFResults/brdf_weight_slope_uncert_strong_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_weight_slope_uncert_strong_co2";
String Description "Uncertainty of overall retrieved in-band slope of the weight for the composite BRDF for SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-1}";
}
/BRDFResults/brdf_weight_slope_uncert_weak_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_weight_slope_uncert_weak_co2";
String Description "Uncertainty of overall retrieved in-band slope of the weight for the composite BRDF for SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-1}";
}
/BRDFResults/brdf_weight_slope_weak_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_weight_slope_weak_co2";
String Description "Overall retrieved in-band slope of the weight for the composite BRDF for WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Wavenumber^{-1}";
}
/BRDFResults/brdf_weight_strong_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_weight_strong_co2";
String Description "Overall retrieved weight for the composite BRDF, at reference wavelength, for SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_weight_uncert_o2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_weight_uncert_o2";
String Description "Uncertainty of overall retrieved weight for the composite BRDF, at reference wavelength, for ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_weight_uncert_strong_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_weight_uncert_strong_co2";
String Description "Uncertainty of overall retrieved weight for the composite BRDF, at reference wavelength, for SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_weight_uncert_weak_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_weight_uncert_weak_co2";
String Description "Uncertainty of overall retrieved weight for the composite BRDF, at reference wavelength, for WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/BRDFResults/brdf_weight_weak_co2 {
String HDF5_OBJ_FULLPATH "/BRDFResults/brdf_weight_weak_co2";
String Description "Overall retrieved weight for the composite BRDF, at reference wavelength, for WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/Dimensions/ {
String HDF5_OBJ_FULLPATH "/Dimensions/";
}
/Dimensions/AerosolParam/ {
String HDF5_OBJ_FULLPATH "/Dimensions/AerosolParam/";
String Description "Parameters of aerosol shape.";
UInt32 Size 3;
}
/Dimensions/AerosolSubColumn/ {
String HDF5_OBJ_FULLPATH "/Dimensions/AerosolSubColumn/";
String Description "Total, Low (GT 80,000 Pa), Med (50,000 to 80,000 Pa), High (LT 50,000 Pa).";
UInt32 Size 4;
}
/Dimensions/AerosolType/ {
String HDF5_OBJ_FULLPATH "/Dimensions/AerosolType/";
String Description "Retrieved aerosol type.";
UInt32 Size 8;
}
/Dimensions/AlbedoWavelength/ {
String HDF5_OBJ_FULLPATH "/Dimensions/AlbedoWavelength/";
String Description "Values at 785 and 755 nm respectively.";
UInt32 Size 2;
}
/Dimensions/AncFile/ {
String HDF5_OBJ_FULLPATH "/Dimensions/AncFile/";
String Description "Number of ancillary input files.";
UInt32 Size 3;
}
/Dimensions/EuclidDim/ {
String HDF5_OBJ_FULLPATH "/Dimensions/EuclidDim/";
String Description "x, y, z.";
UInt32 Size 3;
}
/Dimensions/Frame/ {
String HDF5_OBJ_FULLPATH "/Dimensions/Frame/";
String Description "Index of frame in granule.";
UInt32 Size 8361;
}
/Dimensions/Gap/ {
String HDF5_OBJ_FULLPATH "/Dimensions/Gap/";
String Description "Number of gaps.";
UInt32 Size 1;
}
/Dimensions/InputPtr/ {
String HDF5_OBJ_FULLPATH "/Dimensions/InputPtr/";
String Description "Number of primary input files.";
UInt32 Size 1;
}
/Dimensions/L2FullPhysicsInputPtr/ {
String HDF5_OBJ_FULLPATH "/Dimensions/L2FullPhysicsInputPtr/";
String Description "Number of full physics input files.";
UInt32 Size 14;
}
/Dimensions/Layer/ {
String HDF5_OBJ_FULLPATH "/Dimensions/Layer/";
String Description "Atmospheric retrieval layers.";
UInt32 Size 19;
}
/Dimensions/Level/ {
String HDF5_OBJ_FULLPATH "/Dimensions/Level/";
String Description "Atmospheric retrieval levels.";
UInt32 Size 20;
}
/Dimensions/MetLevel/ {
String HDF5_OBJ_FULLPATH "/Dimensions/MetLevel/";
String Description "Atmospheric model levels from meteorology.";
UInt32 Size 72;
}
/Dimensions/O2Slice/ {
String HDF5_OBJ_FULLPATH "/Dimensions/O2Slice/";
String Description "Index of color pixel for O2 channel.";
UInt32 Size 20;
}
/Dimensions/OrbitParamPtr/ {
String HDF5_OBJ_FULLPATH "/Dimensions/OrbitParamPtr/";
String Description "Attitude and ephemeris files.";
UInt32 Size 2;
}
/Dimensions/Retrieval/ {
String HDF5_OBJ_FULLPATH "/Dimensions/Retrieval/";
String Description "Number retrievals reported.";
UInt32 Size 2147;
}
/Dimensions/Sounding/ {
String HDF5_OBJ_FULLPATH "/Dimensions/Sounding/";
String Description "Index of downlinked sounding in granule.";
UInt32 Size 8;
}
/Dimensions/SoundingPosition/ {
String HDF5_OBJ_FULLPATH "/Dimensions/SoundingPosition/";
String Description "Sounding positions.";
UInt32 Size 8;
}
/Dimensions/Spectrum/ {
String HDF5_OBJ_FULLPATH "/Dimensions/Spectrum/";
String Description "Spectrum index(O2, WeakCO2, StrongCO2).";
UInt32 Size 3;
}
/Dimensions/StrongCO2Slice/ {
String HDF5_OBJ_FULLPATH "/Dimensions/StrongCO2Slice/";
String Description "Index of color pixel for O2 channel.";
UInt32 Size 20;
}
/Dimensions/Vertex/ {
String HDF5_OBJ_FULLPATH "/Dimensions/Vertex/";
String Description "Footprint corner vertex.";
UInt32 Size 4;
}
/Dimensions/WeakCO2Slice/ {
String HDF5_OBJ_FULLPATH "/Dimensions/WeakCO2Slice/";
String Description "Index of color pixel for O2 channel.";
UInt32 Size 20;
}
/DispersionResults/ {
String HDF5_OBJ_FULLPATH "/DispersionResults/";
}
/DispersionResults/dispersion_offset_apriori_o2 {
String HDF5_OBJ_FULLPATH "/DispersionResults/dispersion_offset_apriori_o2";
String Description "A priori of retrieved dispersion offset term in ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float64";
String Units "Microns";
}
/DispersionResults/dispersion_offset_apriori_strong_co2 {
String HDF5_OBJ_FULLPATH "/DispersionResults/dispersion_offset_apriori_strong_co2";
String Description "A priori of retrieved dispersion offset term in SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float64";
String Units "Microns";
}
/DispersionResults/dispersion_offset_apriori_weak_co2 {
String HDF5_OBJ_FULLPATH "/DispersionResults/dispersion_offset_apriori_weak_co2";
String Description "A priori of retrieved dispersion offset term in WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float64";
String Units "Microns";
}
/DispersionResults/dispersion_offset_o2 {
String HDF5_OBJ_FULLPATH "/DispersionResults/dispersion_offset_o2";
String Description "Retrieved dispersion offset term in ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float64";
String Units "Microns";
}
/DispersionResults/dispersion_offset_strong_co2 {
String HDF5_OBJ_FULLPATH "/DispersionResults/dispersion_offset_strong_co2";
String Description "Retrieved dispersion offset term in SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float64";
String Units "Microns";
}
/DispersionResults/dispersion_offset_uncert_o2 {
String HDF5_OBJ_FULLPATH "/DispersionResults/dispersion_offset_uncert_o2";
String Description "Uncertainty of retrieved dispersion offset term in ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Microns";
}
/DispersionResults/dispersion_offset_uncert_strong_co2 {
String HDF5_OBJ_FULLPATH "/DispersionResults/dispersion_offset_uncert_strong_co2";
String Description "Uncertainty of retrieved dispersion offset term in SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Microns";
}
/DispersionResults/dispersion_offset_uncert_weak_co2 {
String HDF5_OBJ_FULLPATH "/DispersionResults/dispersion_offset_uncert_weak_co2";
String Description "Uncertainty of retrieved dispersion offset term in WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Microns";
}
/DispersionResults/dispersion_offset_weak_co2 {
String HDF5_OBJ_FULLPATH "/DispersionResults/dispersion_offset_weak_co2";
String Description "Retrieved dispersion offset term in WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float64";
String Units "Microns";
}
/DispersionResults/dispersion_spacing_apriori_o2 {
String HDF5_OBJ_FULLPATH "/DispersionResults/dispersion_spacing_apriori_o2";
String Description "A priori of retrieved dispersion spacing in ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Microns";
}
/DispersionResults/dispersion_spacing_apriori_strong_co2 {
String HDF5_OBJ_FULLPATH "/DispersionResults/dispersion_spacing_apriori_strong_co2";
String Description "A priori of retrieved dispersion spacing in SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Microns";
}
/DispersionResults/dispersion_spacing_apriori_weak_co2 {
String HDF5_OBJ_FULLPATH "/DispersionResults/dispersion_spacing_apriori_weak_co2";
String Description "A priori of retrieved dispersion spacing in WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Microns";
}
/DispersionResults/dispersion_spacing_o2 {
String HDF5_OBJ_FULLPATH "/DispersionResults/dispersion_spacing_o2";
String Description "Retrieved dispersion spacing in ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Microns";
}
/DispersionResults/dispersion_spacing_strong_co2 {
String HDF5_OBJ_FULLPATH "/DispersionResults/dispersion_spacing_strong_co2";
String Description "Retrieved dispersion spacing in SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Microns";
}
/DispersionResults/dispersion_spacing_uncert_o2 {
String HDF5_OBJ_FULLPATH "/DispersionResults/dispersion_spacing_uncert_o2";
String Description "Uncertainty of retrieved dispersion spacing in ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Microns";
}
/DispersionResults/dispersion_spacing_uncert_strong_co2 {
String HDF5_OBJ_FULLPATH "/DispersionResults/dispersion_spacing_uncert_strong_co2";
String Description "Uncertainty of retrieved dispersion spacing in SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Microns";
}
/DispersionResults/dispersion_spacing_uncert_weak_co2 {
String HDF5_OBJ_FULLPATH "/DispersionResults/dispersion_spacing_uncert_weak_co2";
String Description "Uncertainty of retrieved dispersion spacing in WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Microns";
}
/DispersionResults/dispersion_spacing_weak_co2 {
String HDF5_OBJ_FULLPATH "/DispersionResults/dispersion_spacing_weak_co2";
String Description "Retrieved dispersion spacing in WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Microns";
}
/FootprintMeteorology/ {
String HDF5_OBJ_FULLPATH "/FootprintMeteorology/";
}
/FootprintMeteorology/footprint_surface_pressure_met {
String HDF5_OBJ_FULLPATH "/FootprintMeteorology/footprint_surface_pressure_met";
String Description "Interpolated from GEOS-5 FP-IT inst3_3d_asm_Nv field PS (surface_pressure).";
String Shape "Retrieval_Spectrum_Array";
String Type "Float32";
String Units "Pascals";
}
/L1bScSoundingReference/ {
String HDF5_OBJ_FULLPATH "/L1bScSoundingReference/";
}
/L1bScSoundingReference/packaging_qual_flag {
String HDF5_OBJ_FULLPATH "/L1bScSoundingReference/packaging_qual_flag";
String Description "Bitfield qual flag, bit pos: 1: missing l2 log file, 2: sounding not selected, 3: missing l2 ret file, 5: failed l2 file pre-check, 4: failed l2 file read, 7: unspecified error.";
String Shape "Frame_Sounding_Array";
String Type "IntBitfield8";
}
/L1bScSoundingReference/retrieval_index {
String HDF5_OBJ_FULLPATH "/L1bScSoundingReference/retrieval_index";
String Description "The index into the Retrieval dimension of arrays in the RetrievalResults, RetrievedStateVector, and SpectralParameters groups for soundings associated with retrievals.";
String Shape "Frame_Sounding_Array";
String Type "Signed32";
}
/L1bScSoundingReference/selection_flag_sel {
String HDF5_OBJ_FULLPATH "/L1bScSoundingReference/selection_flag_sel";
String Description "Bitfield qual flag (selected = all bits 0), bit pos: 0: preconditions not met, 1: exceeded max warn level, 2: exceeded warn level cutoff, 3: randomly deselected, 4: matched to 0 size bin, 5: invalid geolocation, 6: no matching bin, 7: no matching enhanced mode.";
String Shape "Frame_Sounding_Array";
String Type "IntBitfield8";
}
/L1bScSoundingReference/sounding_id_l1b {
String HDF5_OBJ_FULLPATH "/L1bScSoundingReference/sounding_id_l1b";
String Description "Unique identifier for each sounding.";
String Shape "Frame_Sounding_Array";
String Type "Signed64";
}
/L1bScSoundingReference/sounding_qual_flag {
String HDF5_OBJ_FULLPATH "/L1bScSoundingReference/sounding_qual_flag";
String Description "Bitfield qual flag (valid sounding = all bits 0), bit pos: 0: failed geolocation, 1: invalid time, 2: invalid ephemeris, 3: invalid attitude, 4: cal door closed in sci mode, 16: failed o2 rad cal, 17: failed wco2 rad cal, 18 rad sco2 rad cal, 19: invalid frame eng input, 20: invalid o2 eng input, 21: invalid wco2 eng input, 22: invalid sco2 eng input, 23: invalid o2 offset and multiplier, 24: invalid wco2 offset and multiplier, 25: invalid offset and multiplier, 26: invalid o2 fp pos, 27: invalid wco2 fp pos, 28: invalid sco2 fp pos, 29: o2 rad exceeds max, 30: wco2 rad exceeds max, 31: sco2 rad exceeds max, 32: o2 rad wrapped, 33: wco2 rad wrapped, 34: sco2 rad wrapped, 35: o2 rad declock failed, 36: wco2 rad declock failed, 37: wco2 rad declock failed.";
String Shape "Frame_Sounding_Array";
String Type "IntBitfield64";
}
/L1bScSpectralParameters/ {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/";
}
/L1bScSpectralParameters/max_declocking_factor_o2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/max_declocking_factor_o2";
String Description "Maximum clocking correction factor of the footprint.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/L1bScSpectralParameters/max_declocking_factor_strong_co2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/max_declocking_factor_strong_co2";
String Description "Maximum clocking correction factor of the footprint.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/L1bScSpectralParameters/max_declocking_factor_weak_co2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/max_declocking_factor_weak_co2";
String Description "Maximum clocking correction factor of the footprint.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/L1bScSpectralParameters/rad_continuum_o2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/rad_continuum_o2";
String Description "The mean signal of the good samples in ABO2 falling between the 98th and 99th percentile for signal level.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/L1bScSpectralParameters/rad_continuum_strong_co2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/rad_continuum_strong_co2";
String Description "The mean signal of the good samples in SCO2 falling between the 98th and 99th percentile for signal level.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/L1bScSpectralParameters/rad_continuum_weak_co2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/rad_continuum_weak_co2";
String Description "The mean signal of the good samples in WCO2 falling between the 98th and 99th percentile for signal level.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/L1bScSpectralParameters/rad_mean_spectra_o2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/rad_mean_spectra_o2";
String Description "The mean radiance of the ABO2 spectrum.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/L1bScSpectralParameters/rad_mean_spectra_strong_co2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/rad_mean_spectra_strong_co2";
String Description "The mean radiance of the SCO2 spectrum.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/L1bScSpectralParameters/rad_mean_spectra_weak_co2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/rad_mean_spectra_weak_co2";
String Description "The mean radiance of the WCO2 spectrum.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/L1bScSpectralParameters/rad_stddev_spectra_o2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/rad_stddev_spectra_o2";
String Description "The standard deviation of the radiance of the ABO2 spectrum.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/L1bScSpectralParameters/rad_stddev_spectra_strong_co2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/rad_stddev_spectra_strong_co2";
String Description "The standard deviation of the radiance of the SCO2 spectrum.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/L1bScSpectralParameters/rad_stddev_spectra_weak_co2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/rad_stddev_spectra_weak_co2";
String Description "The standard deviation of the radiance of the WCO2 spectrum.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/L1bScSpectralParameters/snr_o2_l1b {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/snr_o2_l1b";
String Description "The mean signal-to-noise ratio of the good samples in the band falling between the 98th and 99th percentile for signal level.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/L1bScSpectralParameters/snr_strong_co2_l1b {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/snr_strong_co2_l1b";
String Description "The mean signal-to-noise ratio of the good samples in the band falling between the 98th and 99th percentile for signal level.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/L1bScSpectralParameters/snr_weak_co2_l1b {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/snr_weak_co2_l1b";
String Description "The mean signal-to-noise ratio of the good samples in the band falling between the 98th and 99th percentile for signal level.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/L1bScSpectralParameters/sounding_color_slice_mean_o2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/sounding_color_slice_mean_o2";
String Description "Mean radiance of the valid color slice pixels within the ABO2 footprint.";
String Shape "Retrieval_O2Slice_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/L1bScSpectralParameters/sounding_color_slice_mean_strong_co2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/sounding_color_slice_mean_strong_co2";
String Description "Mean radiance of the valid color slice pixels within the SCO2 footprint.";
String Shape "Retrieval_StrongCO2Slice_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/L1bScSpectralParameters/sounding_color_slice_mean_weak_co2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/sounding_color_slice_mean_weak_co2";
String Description "Mean radiance of the valid color slice pixels within the WCO2 footprint.";
String Shape "Retrieval_WeakCO2Slice_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/L1bScSpectralParameters/sounding_color_slice_noise_ratio_o2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/sounding_color_slice_noise_ratio_o2";
String Description "ratio between the ABO2 footprint color slice radiance standard deviation, and the expected radiance noise level.";
String Shape "Retrieval_O2Slice_Array";
String Type "Float32";
}
/L1bScSpectralParameters/sounding_color_slice_noise_ratio_strong_co2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/sounding_color_slice_noise_ratio_strong_co2";
String Description "ratio between the SCO2 footprint color slice radiance standard deviation, and the expected radiance noise level.";
String Shape "Retrieval_StrongCO2Slice_Array";
String Type "Float32";
}
/L1bScSpectralParameters/sounding_color_slice_noise_ratio_weak_co2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/sounding_color_slice_noise_ratio_weak_co2";
String Description "ratio between the WCO2 footprint color slice radiance standard deviation, and the expected radiance noise level.";
String Shape "Retrieval_WeakCO2Slice_Array";
String Type "Float32";
}
/L1bScSpectralParameters/sounding_color_slice_o2_qual_flag {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/sounding_color_slice_o2_qual_flag";
String Description "Bitfield qual flag, bit pos: 0: has no valid ABO2 color slice radiance.";
String Shape "Retrieval_O2Slice_Array";
String Type "IntBitfield16";
}
/L1bScSpectralParameters/sounding_color_slice_quadratic_o2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/sounding_color_slice_quadratic_o2";
String Description "Quadratic coefficient of a quadratic fit of the radiances of the valid color slice pixels as a function of the 0-based pixel row number within the ABO2 footprint.";
String Shape "Retrieval_O2Slice_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/L1bScSpectralParameters/sounding_color_slice_quadratic_strong_co2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/sounding_color_slice_quadratic_strong_co2";
String Description "Quadratic coefficient of a quadratic fit of the radiances of the valid color slice pixels as a function of the 0-based pixel row number within the SCO2 footprint.";
String Shape "Retrieval_StrongCO2Slice_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/L1bScSpectralParameters/sounding_color_slice_quadratic_weak_co2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/sounding_color_slice_quadratic_weak_co2";
String Description "Quadratic coefficient of a quadratic fit of the radiances of the valid color slice pixels as a function of the 0-based pixel row number within the WCO2 footprint.";
String Shape "Retrieval_WeakCO2Slice_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/L1bScSpectralParameters/sounding_color_slice_slope_o2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/sounding_color_slice_slope_o2";
String Description "Slope coefficient of a linear fit of the radiances of the valid color slice pixels as a function of the 0-based pixel row number within the ABO2 footprint.";
String Shape "Retrieval_O2Slice_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/L1bScSpectralParameters/sounding_color_slice_slope_strong_co2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/sounding_color_slice_slope_strong_co2";
String Description "Slope coefficient of a linear fit of the radiances of the valid color slice pixels as a function of the 0-based pixel row number within the SCO2 footprint.";
String Shape "Retrieval_StrongCO2Slice_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/L1bScSpectralParameters/sounding_color_slice_slope_weak_co2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/sounding_color_slice_slope_weak_co2";
String Description "Slope coefficient of a linear fit of the radiances of the valid color slice pixels as a function of the 0-based pixel row number within the WCO2 footprint.";
String Shape "Retrieval_WeakCO2Slice_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/L1bScSpectralParameters/sounding_color_slice_stddev_o2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/sounding_color_slice_stddev_o2";
String Description "Radiance standard deviation of the valid color slice pixels within the ABO2 footprint.";
String Shape "Retrieval_O2Slice_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/L1bScSpectralParameters/sounding_color_slice_stddev_strong_co2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/sounding_color_slice_stddev_strong_co2";
String Description "Radiance standard deviation of the valid color slice pixels within the SCO2 footprint.";
String Shape "Retrieval_StrongCO2Slice_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/L1bScSpectralParameters/sounding_color_slice_stddev_weak_co2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/sounding_color_slice_stddev_weak_co2";
String Description "Radiance standard deviation of the valid color slice pixels within the WCO2 footprint.";
String Shape "Retrieval_WeakCO2Slice_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/L1bScSpectralParameters/sounding_color_slice_strong_co2_qual_flag {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/sounding_color_slice_strong_co2_qual_flag";
String Description "Bitfield qual flag, bit pos: 0: has no valid SCO2 color slice radiance.";
String Shape "Retrieval_StrongCO2Slice_Array";
String Type "IntBitfield16";
}
/L1bScSpectralParameters/sounding_color_slice_weak_co2_qual_flag {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/sounding_color_slice_weak_co2_qual_flag";
String Description "Bitfield qual flag, bit pos: 0: has no valid WCO2 color slice radiance.";
String Shape "Retrieval_WeakCO2Slice_Array";
String Type "IntBitfield16";
}
/L1bScSpectralParameters/spike_eof_bad_colors_o2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/spike_eof_bad_colors_o2";
String Description "Number of bad colors in individual spectra and footprint.";
String Shape "Retrieval_Array";
String Type "Signed16";
}
/L1bScSpectralParameters/spike_eof_bad_colors_strong_co2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/spike_eof_bad_colors_strong_co2";
String Description "Number of bad colors in individual spectra and footprint.";
String Shape "Retrieval_Array";
String Type "Signed16";
}
/L1bScSpectralParameters/spike_eof_bad_colors_weak_co2 {
String HDF5_OBJ_FULLPATH "/L1bScSpectralParameters/spike_eof_bad_colors_weak_co2";
String Description "Number of bad colors in individual spectra and footprint.";
String Shape "Retrieval_Array";
String Type "Signed16";
}
/Metadata/ {
String HDF5_OBJ_FULLPATH "/Metadata/";
}
/Metadata/ARPAncillaryDatasetDescriptor {
String HDF5_OBJ_FULLPATH "/Metadata/ARPAncillaryDatasetDescriptor";
String Description "The name of the Ancillary Radiometric Product file used to calibrate this file.";
String Shape "Scalar";
String Type "VarLenStr";
}
/Metadata/AbscoCO2Scale {
String HDF5_OBJ_FULLPATH "/Metadata/AbscoCO2Scale";
String Description "Empirical scaling factors for CO2 ABSCO tables. Values may be different for the 1.6 micron and 2.06 micron bands and were chosen to provide agreement of retrieved XCO2 with TCCON XCO2.";
String Shape "Spectrum_Array";
String Type "Float32";
}
/Metadata/AbscoH2OScale {
String HDF5_OBJ_FULLPATH "/Metadata/AbscoH2OScale";
String Description "Empirical scaling factor for H2O ABSCO tables.";
String Shape "Spectrum_Array";
String Type "Float32";
}
/Metadata/AbscoO2Scale {
String HDF5_OBJ_FULLPATH "/Metadata/AbscoO2Scale";
String Description "Empirical scaling factor for O2 ABSCO tables. Values chosen to improve agreement between retrieved surface pressure and independent estimates from a numerical weather prediction model.";
String Shape "Spectrum_Array";
String Type "Float32";
}
/Metadata/AcquisitionMode {
String HDF5_OBJ_FULLPATH "/Metadata/AcquisitionMode";
String Description "The instrument mode in which the data in the product were collected. Valid values are: 'Glint', 'Nadir', 'Target', 'Sample Dark Calibration', 'Sample Lamp Calibration', 'Sample Solar/limb Calibration', 'Single-Pixel Dark Calibration', 'Single-Pixel Lamp Calibration', 'Single-Pixel Solar/limb Calibration'.";
String Shape "Scalar";
String Type "VarLenStr";
}
/Metadata/ActualFrames {
String HDF5_OBJ_FULLPATH "/Metadata/ActualFrames";
String Description "Actual number of frames reported in this product.";
String Shape "Scalar";
String Type "Signed32";
}
/Metadata/ActualGoodRetrievals {
String HDF5_OBJ_FULLPATH "/Metadata/ActualGoodRetrievals";
String Description "Number of retrievals with outcome flag that passed convergence/divergence criteria.";
String Shape "Scalar";
String Type "Signed32";
}
/Metadata/ActualRetrievals {
String HDF5_OBJ_FULLPATH "/Metadata/ActualRetrievals";
String Description "Actual number of retrievals reported in the product.";
String Shape "Scalar";
String Type "Signed32";
}
/Metadata/AllAerosolTypes {
String HDF5_OBJ_FULLPATH "/Metadata/AllAerosolTypes";
String Description "List of aerosol types available for use in retrieval.";
String Shape "AerosolType_Array";
String Type "VarLenStr";
}
/Metadata/AncillaryDataDescriptors {
String HDF5_OBJ_FULLPATH "/Metadata/AncillaryDataDescriptors";
String Description "The file names of the ancillary data files that were used to generate this product (ancillary data sets include all input files except for the primary input files).";
String Shape "AncFile_Array";
String Type "VarLenStr";
}
/Metadata/AscendingEquatorCrossingDate {
String HDF5_OBJ_FULLPATH "/Metadata/AscendingEquatorCrossingDate";
String Description "The date of the equator crossing of the spacecraft ground track in the ascending direction.";
String Shape "Scalar";
String Type "FixLenStr";
}
/Metadata/AscendingEquatorCrossingLongitude {
String HDF5_OBJ_FULLPATH "/Metadata/AscendingEquatorCrossingLongitude";
String Description "The longitude of the equator crossing of the spacecraft ground track in the ascending direction.";
Float32 Maximum 180.;
Float32 Minimum -180.;
String Shape "Scalar";
String Type "Float32";
String Units "Degrees";
}
/Metadata/AscendingEquatorCrossingTime {
String HDF5_OBJ_FULLPATH "/Metadata/AscendingEquatorCrossingTime";
String Description "The time of the equator crossing of the spacecraft ground track in the ascending direction.";
String Shape "Scalar";
String Type "FixLenStr";
}
/Metadata/BuildId {
String HDF5_OBJ_FULLPATH "/Metadata/BuildId";
String Description "The ID of build which included the software that created this product.";
String Shape "Scalar";
String Type "VarLenStr";
}
/Metadata/CollectionLabel {
String HDF5_OBJ_FULLPATH "/Metadata/CollectionLabel";
String Description "Label of the data collection containing this product.";
String Shape "Scalar";
String Type "VarLenStr";
}
/Metadata/ColorSlicePositionO2 {
String HDF5_OBJ_FULLPATH "/Metadata/ColorSlicePositionO2";
String Description "Absolute spectral position of each ABO2 color slice.";
Int16 Maximum 1024;
Int16 Minimum 1;
String Shape "O2Slice_Array";
String Type "Signed16";
}
/Metadata/ColorSlicePositionStrongCO2 {
String HDF5_OBJ_FULLPATH "/Metadata/ColorSlicePositionStrongCO2";
String Description "Absolute spectral position of each SCO2 color slice.";
Int16 Maximum 1024;
Int16 Minimum 1;
String Shape "StrongCO2Slice_Array";
String Type "Signed16";
}
/Metadata/ColorSlicePositionWeakCO2 {
String HDF5_OBJ_FULLPATH "/Metadata/ColorSlicePositionWeakCO2";
String Description "Absolute spectral position of each WCO2 color slice.";
Int16 Maximum 1024;
Int16 Minimum 1;
String Shape "WeakCO2Slice_Array";
String Type "Signed16";
}
/Metadata/DataFormatType {
String HDF5_OBJ_FULLPATH "/Metadata/DataFormatType";
String Description "'NCSA HDF' - A character string that describes the internal format of the data product.";
String Shape "Scalar";
String Type "FixLenStr";
}
/Metadata/EphemerisType {
String HDF5_OBJ_FULLPATH "/Metadata/EphemerisType";
String Description "The source of the spacecraft ephemeris data that were utilized to generate this data file.";
String Shape "Scalar";
String Type "VarLenStr";
}
/Metadata/EquatorCrossingDate {
String HDF5_OBJ_FULLPATH "/Metadata/EquatorCrossingDate";
String Description "The date of the equator crossing of the spacecraft ground track in the descending direction.";
String Shape "Scalar";
String Type "FixLenStr";
}
/Metadata/EquatorCrossingLongitude {
String HDF5_OBJ_FULLPATH "/Metadata/EquatorCrossingLongitude";
String Description "The longitude of the equator crossing of the spacecraft ground track in the descending direction.";
Float32 Maximum 180.;
Float32 Minimum -180.;
String Shape "Scalar";
String Type "Float32";
String Units "Degrees";
}
/Metadata/EquatorCrossingTime {
String HDF5_OBJ_FULLPATH "/Metadata/EquatorCrossingTime";
String Description "The time of the equator crossing of the spacecraft ground track in the descending direction.";
String Shape "Scalar";
String Type "FixLenStr";
}
/Metadata/ExpectedFrames {
String HDF5_OBJ_FULLPATH "/Metadata/ExpectedFrames";
String Description "Nominal number of frames in this product.";
String Shape "Scalar";
String Type "Signed32";
}
/Metadata/FirstSoundingId {
String HDF5_OBJ_FULLPATH "/Metadata/FirstSoundingId";
String Description "The ID of the first sounding in this file.";
String Shape "Scalar";
String Type "Signed64";
}
/Metadata/GapStartTime {
String HDF5_OBJ_FULLPATH "/Metadata/GapStartTime";
String Description "The timestamp after which a nonexistent, unnecessary, spurious, questionable, or erroneous data segment begins.";
String Shape "Gap_Array";
String Type "FixLenStr";
}
/Metadata/GapStopTime {
String HDF5_OBJ_FULLPATH "/Metadata/GapStopTime";
String Description "The timestamp before which a nonexistent, unnecessary, spurious, questionable, or erroneous data segment ends.";
String Shape "Gap_Array";
String Type "FixLenStr";
}
/Metadata/GranulePointer {
String HDF5_OBJ_FULLPATH "/Metadata/GranulePointer";
String Description "The filename of this product.";
String Shape "Scalar";
String Type "VarLenStr";
}
/Metadata/HDFVersionId {
String HDF5_OBJ_FULLPATH "/Metadata/HDFVersionId";
String Description "5.x' - A character string that identifies the version of the HDF (Hierarchical Data Format) software that was used to generate this data file.";
String Shape "Scalar";
String Type "VarLenStr";
}
/Metadata/InputPointer {
String HDF5_OBJ_FULLPATH "/Metadata/InputPointer";
String Description "A pointer to one or more data granules that provide the major input that was used to generate this product.";
String Shape "InputPtr_Array";
String Type "VarLenStr";
}
/Metadata/InstrumentShortName {
String HDF5_OBJ_FULLPATH "/Metadata/InstrumentShortName";
String Description "OCO-2' - The name of the instrument that collected the telemetry data.";
String Shape "Scalar";
String Type "VarLenStr";
}
/Metadata/L2FullPhysicsAlgorithmDescriptor {
String HDF5_OBJ_FULLPATH "/Metadata/L2FullPhysicsAlgorithmDescriptor";
String Description "Identification of the algorithm and/or version used to generate this product.";
String Shape "Scalar";
String Type "VarLenStr";
}
/Metadata/L2FullPhysicsDataVersion {
String HDF5_OBJ_FULLPATH "/Metadata/L2FullPhysicsDataVersion";
String Description "The source of the data used by the Full-physics algorithm: 'r01' - initial processing; 'r02', 'r03', etc. - reprocessed data.";
String Shape "Scalar";
String Type "VarLenStr";
}
/Metadata/L2FullPhysicsExeVersion {
String HDF5_OBJ_FULLPATH "/Metadata/L2FullPhysicsExeVersion";
String Description "The build version number of the Full-physics algorithm used to generate this product.";
String Shape "Scalar";
String Type "VarLenStr";
}
/Metadata/L2FullPhysicsInputPointer {
String HDF5_OBJ_FULLPATH "/Metadata/L2FullPhysicsInputPointer";
String Description "Pointer to one or more data granules and auxilliary files that provide the major input that was used to generate this product.";
String Shape "L2FullPhysicsInputPtr_Array";
String Type "VarLenStr";
}
/Metadata/L2FullPhysicsProductionLocation {
String HDF5_OBJ_FULLPATH "/Metadata/L2FullPhysicsProductionLocation";
String Description "Facility in which Full Physics code was run, typically: 'JPL', 'Pleiades'.";
String Shape "Scalar";
String Type "VarLenStr";
}
/Metadata/LastSoundingId {
String HDF5_OBJ_FULLPATH "/Metadata/LastSoundingId";
String Description "The ID of the last sounding in this file.";
String Shape "Scalar";
String Type "Signed64";
}
/Metadata/LongName {
String HDF5_OBJ_FULLPATH "/Metadata/LongName";
String Description "A complete descriptive name for the data type of this product.";
String Shape "Scalar";
String Type "VarLenStr";
}
/Metadata/ModeCounter {
String HDF5_OBJ_FULLPATH "/Metadata/ModeCounter";
String Description "The Nth occurrence of this particular mode for this orbit, indicated by letter ('a', 'b', 'c', 'd', etc.).";
String Shape "Scalar";
String Type "FixLenStr";
}
/Metadata/OperationMode {
String HDF5_OBJ_FULLPATH "/Metadata/OperationMode";
String Description "The two-letter abbreviation of the AcquisitionMode: GL, ND, TG, DS, LS, SS, BS, NP, GP, TP, DP, LP, SP, BP, XS, XP, MS, MP, SB.";
String Shape "Scalar";
String Type "FixLenStr";
}
/Metadata/OrbitEccentricity {
String HDF5_OBJ_FULLPATH "/Metadata/OrbitEccentricity";
String Description "The eccentricity of the spacecraft orbital path.";
String Shape "Scalar";
String Type "Float32";
}
/Metadata/OrbitInclination {
String HDF5_OBJ_FULLPATH "/Metadata/OrbitInclination";
String Description "The angle between the plane of the spacecraft orbital path and the Earth equatorial plane.";
Float32 Maximum 180.;
Float32 Minimum 0.;
String Shape "Scalar";
String Type "Float32";
String Units "Degrees";
}
/Metadata/OrbitParametersPointer {
String HDF5_OBJ_FULLPATH "/Metadata/OrbitParametersPointer";
String Description "The data files that provided the orbit parameters used to generate this product.";
String Shape "OrbitParamPtr_Array";
String Type "VarLenStr";
}
/Metadata/OrbitPeriod {
String HDF5_OBJ_FULLPATH "/Metadata/OrbitPeriod";
String Description "The time span between two consecutive descending node crossings.";
String Shape "Scalar";
String Type "Float32";
String Units "Seconds";
}
/Metadata/OrbitSemiMajorAxis {
String HDF5_OBJ_FULLPATH "/Metadata/OrbitSemiMajorAxis";
String Description "The length of the semimajor axis of the spacecraft orbit.";
String Shape "Scalar";
String Type "Float32";
String Units "Meters";
}
/Metadata/OrbitStartDate {
String HDF5_OBJ_FULLPATH "/Metadata/OrbitStartDate";
String Description "The date of the equator crossing of the spacecraft nadir track in the descending direction.";
String Shape "Scalar";
String Type "FixLenStr";
}
/Metadata/OrbitStartLongitude {
String HDF5_OBJ_FULLPATH "/Metadata/OrbitStartLongitude";
String Description "The longitude of the equator crossing of the spacecraft ground track in the descending direction.";
Float32 Maximum 180.;
Float32 Minimum -180.;
String Shape "Scalar";
String Type "Float32";
String Units "Degrees";
}
/Metadata/OrbitStartTime {
String HDF5_OBJ_FULLPATH "/Metadata/OrbitStartTime";
String Description "The time of the equator crossing of the spacecraft ground track in the descending direction.";
String Shape "Scalar";
String Type "FixLenStr";
}
/Metadata/PlatformLongName {
String HDF5_OBJ_FULLPATH "/Metadata/PlatformLongName";
String Description "'Orbiting Carbon Observatory 2'.";
String Shape "Scalar";
String Type "VarLenStr";
}
/Metadata/PlatformShortName {
String HDF5_OBJ_FULLPATH "/Metadata/PlatformShortName";
String Description "'OCO-2'.";
String Shape "Scalar";
String Type "VarLenStr";
}
/Metadata/PlatformType {
String HDF5_OBJ_FULLPATH "/Metadata/PlatformType";
String Description "'spacecraft' - The type of platform associated with the instrument which acquires the accompanying data.";
String Shape "Scalar";
String Type "VarLenStr";
}
/Metadata/ProcessingLevel {
String HDF5_OBJ_FULLPATH "/Metadata/ProcessingLevel";
String Description "Indicates data level (Level 0, Level 1A, Level 1B, Level 2) in this product.";
String Shape "Scalar";
String Type "VarLenStr";
}
/Metadata/ProducerAgency {
String HDF5_OBJ_FULLPATH "/Metadata/ProducerAgency";
String Description "'NASA' - Identification of the agency that provides the project funding.";
String Shape "Scalar";
String Type "VarLenStr";
}
/Metadata/ProducerInstitution {
String HDF5_OBJ_FULLPATH "/Metadata/ProducerInstitution";
String Description "'JPL' - Identification of the institution that provides project management.";
String Shape "Scalar";
String Type "VarLenStr";
}
/Metadata/ProductionDateTime {
String HDF5_OBJ_FULLPATH "/Metadata/ProductionDateTime";
String Description "The date and time at which the product was created (yyyy-mm-ddThh:mm:ss.mmmZ).";
String Shape "Scalar";
String Type "FixLenStr";
}
/Metadata/ProductionLocation {
String HDF5_OBJ_FULLPATH "/Metadata/ProductionLocation";
String Description "Facility in which this file was produced, typically: 'Operations Pipeline', 'Operations Pipeline 2', 'Science Computing Facility', 'Test Pipeline', Test Pipeline 2'.";
String Shape "Scalar";
String Type "VarLenStr";
}
/Metadata/ProductionLocationCode {
String HDF5_OBJ_FULLPATH "/Metadata/ProductionLocationCode";
String Description "One-letter code indicating the ProductionLocation, typically: ' ' - Operations Pipelines (1) or 2, 's' - Science Computing Facility, 't' - Test Pipelines (1) or 2.";
String Shape "Scalar";
String Type "FixLenStr";
}
/Metadata/ProjectId {
String HDF5_OBJ_FULLPATH "/Metadata/ProjectId";
String Description "OCO-2' - The project identification string.";
String Shape "Scalar";
String Type "VarLenStr";
}
/Metadata/QAGranulePointer {
String HDF5_OBJ_FULLPATH "/Metadata/QAGranulePointer";
String Description "A pointer to the quality assessment product that was generated with this product.";
String Shape "Scalar";
String Type "VarLenStr";
}
/Metadata/RadianceConversionFactor {
String HDF5_OBJ_FULLPATH "/Metadata/RadianceConversionFactor";
String Description "Multiplicative factor used to convert W m^{-2} sr^{-1} um^{-1} to Ph sec^{-1} m^{-2} sr^{-1} um^{-1} at 760 nm (38.228x10^17).";
String Shape "Scalar";
String Type "Float32";
String Units "Ph sec^{-1} W^{-1}";
}
/Metadata/RangeBeginningDate {
String HDF5_OBJ_FULLPATH "/Metadata/RangeBeginningDate";
String Description "The date on which the earliest data contained in the product were acquired (yyyy-mm-dd).";
String Shape "Scalar";
String Type "FixLenStr";
}
/Metadata/RangeBeginningTime {
String HDF5_OBJ_FULLPATH "/Metadata/RangeBeginningTime";
String Description "The time at which the earliest data contained in the product were acquired (hh:mm:ss.mmmZ).";
String Shape "Scalar";
String Type "FixLenStr";
}
/Metadata/RangeEndingDate {
String HDF5_OBJ_FULLPATH "/Metadata/RangeEndingDate";
String Description "The date on which the latest data contained in the product were acquired (yyyy-mm-dd).";
String Shape "Scalar";
String Type "FixLenStr";
}
/Metadata/RangeEndingTime {
String HDF5_OBJ_FULLPATH "/Metadata/RangeEndingTime";
String Description "The time at which the latest data contained in the product were acquired (hh:mm:ss.mmmZ).";
String Shape "Scalar";
String Type "FixLenStr";
}
/Metadata/ReportedSoundings {
String HDF5_OBJ_FULLPATH "/Metadata/ReportedSoundings";
String Description "Indicates the inclusion of each footprint in the data: 0 - not included, 1 - included.";
Int16 Maximum 1;
Int16 Minimum 0;
String Shape "SoundingPosition_Array";
String Type "Signed8";
}
/Metadata/RetrievalIterationLimit {
String HDF5_OBJ_FULLPATH "/Metadata/RetrievalIterationLimit";
String Description "Maximum number of iterations allowed before the algorithm gives up and sets the outcome_flag to 3.";
String Shape "Scalar";
String Type "Signed32";
}
/Metadata/SISName {
String HDF5_OBJ_FULLPATH "/Metadata/SISName";
String Description "The name of the document describing the contents of the product.";
String Shape "Scalar";
String Type "VarLenStr";
}
/Metadata/SISVersion {
String HDF5_OBJ_FULLPATH "/Metadata/SISVersion";
String Description "The version of the document describing the contents of the product.";
String Shape "Scalar";
String Type "VarLenStr";
}
/Metadata/ShortName {
String HDF5_OBJ_FULLPATH "/Metadata/ShortName";
String Description "The short name identifying the data type of this product.";
String Shape "Scalar";
String Type "VarLenStr";
}
/Metadata/SizeMBECSDataGranule {
String HDF5_OBJ_FULLPATH "/Metadata/SizeMBECSDataGranule";
String Description "The size of this data granule in Megabytes, before final compression.";
String Shape "Scalar";
String Type "Float32";
String Units "Megabytes";
}
/Metadata/SpectralChannel {
String HDF5_OBJ_FULLPATH "/Metadata/SpectralChannel";
String Description "A description of the spectral channels used for the measurements.";
String Shape "Spectrum_Array";
String Type "VarLenStr";
}
/Metadata/StartOrbitNumber {
String HDF5_OBJ_FULLPATH "/Metadata/StartOrbitNumber";
String Description "The first orbit on which data contained in the product were acquired.";
String Shape "Scalar";
String Type "Signed32";
}
/Metadata/StartPathNumber {
String HDF5_OBJ_FULLPATH "/Metadata/StartPathNumber";
String Description "The first WRS path on which data contained in the product was collected.";
Int32 Maximum 233;
Int32 Minimum 1;
String Shape "Scalar";
String Type "Signed32";
}
/Metadata/StopOrbitNumber {
String HDF5_OBJ_FULLPATH "/Metadata/StopOrbitNumber";
String Description "The last orbit on which data contained in the product were acquired.";
String Shape "Scalar";
String Type "Signed32";
}
/Metadata/StopPathNumber {
String HDF5_OBJ_FULLPATH "/Metadata/StopPathNumber";
String Description "The last WRS path on which data contained in the product was collected.";
Int32 Maximum 233;
Int32 Minimum 1;
String Shape "Scalar";
String Type "Signed32";
}
/Metadata/VMRO2 {
String HDF5_OBJ_FULLPATH "/Metadata/VMRO2";
String Description "The volume mixing ratio of atmospheric O2.";
String Shape "Scalar";
String Type "Float32";
String Units "Moles Mole^{-1}";
}
/PreprocessingResults/ {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/";
}
/PreprocessingResults/albedo_o2_abp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/albedo_o2_abp";
String Description "O2 albedo at 785 and 755 nm.";
String Shape "Retrieval_AlbedoWavelength_Array";
String Type "Float32";
}
/PreprocessingResults/cloud_flag_abp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/cloud_flag_abp";
String Description "Indicator of whether the sounding contained clouds: 0 - 'Clear', 1 - 'Cloudy', 2 - 'Not classified'.";
Int16 Maximum 2;
Int16 Minimum 0;
String Shape "Retrieval_Array";
String Type "Signed8";
}
/PreprocessingResults/cloud_flag_idp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/cloud_flag_idp";
String Description "Cloud flag derived from IMAP-DOAS algorithm: -2 - 'Measurement unusable', -1 - 'Did not converge', 0 - \"Definitely cloudy', 1 - 'Probably cloudy', 2 - 'Probably clear', 3 - 'Very clear', all other values undefined.";
Int16 Maximum 3;
Int16 Minimum -2;
String Shape "Retrieval_Array";
String Type "Signed8";
}
/PreprocessingResults/co2_column_strong_band_apriori_idp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/co2_column_strong_band_apriori_idp";
String Description "A priori CO2 vertical column density from meteorological data.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Molecules Meter^{-2}";
}
/PreprocessingResults/co2_column_strong_band_idp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/co2_column_strong_band_idp";
String Description "CO2 vertical column density (from SCO2 band).";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Molecules Meter^{-2}";
}
/PreprocessingResults/co2_column_strong_band_uncert_idp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/co2_column_strong_band_uncert_idp";
String Description "1-sigma error in the CO2 veritical column density (from SCO2 band).";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Molecules Meter^{-2}";
}
/PreprocessingResults/co2_column_weak_band_apriori_idp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/co2_column_weak_band_apriori_idp";
String Description "A priori CO2 vertical column density from meteorological data.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Molecules Meter^{-2}";
}
/PreprocessingResults/co2_column_weak_band_idp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/co2_column_weak_band_idp";
String Description "CO2 vertical column density (from WCO2 band).";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Molecules Meter^{-2}";
}
/PreprocessingResults/co2_column_weak_band_uncert_idp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/co2_column_weak_band_uncert_idp";
String Description "1-sigma error in the CO2 veritical column density (from WCO2 band).";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Molecules Meter^{-2}";
}
/PreprocessingResults/co2_ratio_idp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/co2_ratio_idp";
String Description "Ratio of retrieved CO2 column (no scattering code) in WCO2 and SCO2 bands.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/PreprocessingResults/co2_strong_band_processing_flag_idp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/co2_strong_band_processing_flag_idp";
String Description "Indicator of whether the SCO2 analysis succeeded: 0 - 'Processing succeeded', 1 - 'Processing failed', 2 - 'Processing skipped', all other values undefined.";
String Shape "Retrieval_Array";
String Type "Signed8";
}
/PreprocessingResults/co2_weak_band_processing_flag_idp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/co2_weak_band_processing_flag_idp";
String Description "Indicator of whether the WCO2 analysis succeeded: 0 - 'Processing succeeded', 1 - 'Processing failed', 2 - 'Processing skipped', all other values undefined.";
String Shape "Retrieval_Array";
String Type "Signed8";
}
/PreprocessingResults/dispersion_multiplier_abp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/dispersion_multiplier_abp";
String Description "A number retrieved by the ABO2 algorithm that multiplies the dispersion coefficients as given in the L1B input file to get the effective wavelength of each channel.";
String Shape "Retrieval_Array";
String Type "Float64";
}
/PreprocessingResults/dry_air_column_apriori_idp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/dry_air_column_apriori_idp";
String Description "Integrated vertical column of dry airmass derived from meteorological data.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Molecules Meter^{-2}";
}
/PreprocessingResults/fluorescence_offset_relative_757nm_idp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/fluorescence_offset_relative_757nm_idp";
String Description "Fraction of continuum level radiance explained by an additive offset term in the 757nm spectral window (unitless). In the absence of instrumental errors, this will be only caused by fluorescence. Rotational Raman scattering should be negligible over typical vegetated surface and moderate solar zenith angles (<65 degrees).";
String Shape "Retrieval_Array";
String Type "Float32";
}
/PreprocessingResults/fluorescence_offset_relative_771nm_idp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/fluorescence_offset_relative_771nm_idp";
String Description "Fraction of continuum level radiance explained by an additive offset term in the 771nm spectral window (unitless). In the absence of instrumental errors, this will be only caused by fluorescence. Rotational Raman scattering should be negligible over typical vegetated surface and moderate solar zenith angles (<65 degrees).";
String Shape "Retrieval_Array";
String Type "Float32";
}
/PreprocessingResults/fluorescence_qual_flag_idp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/fluorescence_qual_flag_idp";
String Description "Indicator of the quality of the IMAP DOAS fluorescence retrieval for each sounding: 0 - good, 1 - bad.";
String Shape "Retrieval_Array";
String Type "IntBitfield8";
}
/PreprocessingResults/fluorescence_radiance_757nm_idp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/fluorescence_radiance_757nm_idp";
String Description "Radiance generated by fluorescence at 757nm.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/PreprocessingResults/fluorescence_radiance_757nm_uncert_idp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/fluorescence_radiance_757nm_uncert_idp";
String Description "Standard deviation of the radiance generated by fluorescence at 757nm.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/PreprocessingResults/fluorescence_radiance_771nm_idp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/fluorescence_radiance_771nm_idp";
String Description "Radiance generated by fluorescence at 771nm.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/PreprocessingResults/fluorescence_radiance_771nm_uncert_idp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/fluorescence_radiance_771nm_uncert_idp";
String Description "Standard deviation of the radiance generated by fluorescence at 771nm.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/PreprocessingResults/h2o_ratio_idp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/h2o_ratio_idp";
String Description "Ratio of retrieved H2O column (no scattering code) in WCO2 and SCO2 bands.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/PreprocessingResults/h2o_ratio_uncert_idp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/h2o_ratio_uncert_idp";
String Description "1-sigma error in the ratio of retrieved H2O column (no scattering code) in WCO2 and SCO2 bands.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/PreprocessingResults/noise_o2_abp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/noise_o2_abp";
String Description "O2 measurement noise retrieved by the ABO2 algorithm.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/PreprocessingResults/o2_ratio_idp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/o2_ratio_idp";
String Description "Ratio of retrieved and meteorological O2 column.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/PreprocessingResults/reduced_chi_squared_o2_abp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/reduced_chi_squared_o2_abp";
String Description "O2 reduced chi squared retrieved by ABO2 preprocessing.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/PreprocessingResults/reduced_chi_squared_o2_threshold_abp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/reduced_chi_squared_o2_threshold_abp";
String Description "Threshold of O2 reduced chi squared used to set cloud_flag.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/PreprocessingResults/sea_ice_flag_abp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/sea_ice_flag_abp";
String Description "Simple, unvalidated parameterization for determination of sea ice presence over a water surface based on continuum signals in bands 1 and 3; use with caution. 0=no sea ice, 1=sea ice, 2=undetermined.";
Int16 Maximum 2;
Int16 Minimum 0;
String Shape "Retrieval_Array";
String Type "Signed8";
}
/PreprocessingResults/selection_priority {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/selection_priority";
String Description "Indicator of the likelihood of generating a good retrieval from the sounding: 0 = most likely, 20 = least likely.";
Int16 Maximum 20;
Int16 Minimum 0;
String Shape "Retrieval_Array";
String Type "Signed8";
}
/PreprocessingResults/signal_o2_abp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/signal_o2_abp";
String Description "O2 measurement signal level retrieved by the ABO2 algorithm.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/PreprocessingResults/snr_o2_abp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/snr_o2_abp";
String Description "O2 measurement SNR retrieved by the ABO2 algorithm.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/PreprocessingResults/surface_pressure_abp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/surface_pressure_abp";
String Description "Surface pressure retrieved by the ABO2 algorithm.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Pascals";
}
/PreprocessingResults/surface_pressure_apriori_abp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/surface_pressure_apriori_abp";
String Description "A priori surface pressure used by the ABO2 algorithm.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Pascals";
}
/PreprocessingResults/surface_pressure_delta_abp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/surface_pressure_delta_abp";
String Description "The value of surface_pressure_abp minus surface_pressure_apriori_abp and surface_pressure_offset_abp.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Pascals";
}
/PreprocessingResults/surface_pressure_offset_abp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/surface_pressure_offset_abp";
String Description "Empirically determined value to be added to the A-band retrieved surface pressure, such that their sum is unbiased in clear scenes. It is modeled as a piecewise linear function of solar zenith angle; separate functions are used for land vs. ocean pixels. .";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Pascals";
}
/PreprocessingResults/temperature_offset_abp {
String HDF5_OBJ_FULLPATH "/PreprocessingResults/temperature_offset_abp";
String Description "The offset to the prior meteorological temperature profile as retrieved by the ABO2 algorithm.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Kelvins";
}
/RetrievalGeometry/ {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/";
}
/RetrievalGeometry/retrieval_altitude {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_altitude";
String Description "Mean altitude within the sounding based on Earth topography.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Meters";
}
/RetrievalGeometry/retrieval_altitude_per_band {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_altitude_per_band";
String Description "Altitude of the per-spectrum footprint based on Earth topography.";
String Shape "Retrieval_Spectrum_Array";
String Type "Float32";
String Units "Meters";
}
/RetrievalGeometry/retrieval_altitude_uncert {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_altitude_uncert";
String Description "Uncertainty of the underlying source of Earth topography data.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Meters";
}
/RetrievalGeometry/retrieval_aspect {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_aspect";
String Description "Orientation relative to local North of a plane fit to Earth topography sampled over the sounding.";
Float32 Maximum 360.;
Float32 Minimum 0.;
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Degrees";
}
/RetrievalGeometry/retrieval_azimuth {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_azimuth";
String Description "Angle between the LOS as defined from the sounding location to the spacecraft, and the sounding location local north direction.";
Float32 Maximum 360.;
Float32 Minimum 0.;
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Degrees";
}
/RetrievalGeometry/retrieval_center_offset_o2_weak_co2 {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_center_offset_o2_weak_co2";
String Description "Distance between the ABO2 band footprint center and the WCO2 band footprint center.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Meters";
}
/RetrievalGeometry/retrieval_center_offset_strong_co2_o2 {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_center_offset_strong_co2_o2";
String Description "Distance between the SCO2 band footprint center and the ABO2 band footprint center.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Meters";
}
/RetrievalGeometry/retrieval_center_offset_weak_co2_strong_co2 {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_center_offset_weak_co2_strong_co2";
String Description "Distance between the WCO2 band footprint center and the SCO2 band footprint center.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Meters";
}
/RetrievalGeometry/retrieval_land_fraction {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_land_fraction";
String Description "Percentage of land surface type within the sounding.";
Float32 Maximum 100.;
Float32 Minimum 0.;
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Percent";
}
/RetrievalGeometry/retrieval_land_water_indicator {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_land_water_indicator";
String Description "Surface type at the sounding location: 0 - Land, 1 - Water, 2 - unused, 3 - Mixed land water.";
Int16 Maximum 3;
Int16 Minimum 0;
String Shape "Retrieval_Array";
String Type "Signed8";
}
/RetrievalGeometry/retrieval_latitude {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_latitude";
String Description "Geodetic latitude of the sounding based on Earth topography.";
Float32 Maximum 90.;
Float32 Minimum -90.;
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Degrees";
}
/RetrievalGeometry/retrieval_latitude_geoid {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_latitude_geoid";
String Description "Geodetic latitude of the sounding based on standard geoid.";
Float32 Maximum 90.;
Float32 Minimum -90.;
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Degrees";
}
/RetrievalGeometry/retrieval_longitude {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_longitude";
String Description "Longitude of the sounding based on Earth topography.";
Float32 Maximum 180.;
Float32 Minimum -180.;
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Degrees";
}
/RetrievalGeometry/retrieval_longitude_geoid {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_longitude_geoid";
String Description "Longitude of the sounding based on standard geoid.";
Float32 Maximum 180.;
Float32 Minimum -180.;
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Degrees";
}
/RetrievalGeometry/retrieval_los_surface_bidirectional_angle {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_los_surface_bidirectional_angle";
String Description "Angle between the LOS as defined from the sounding location to the spacecraft, and the sounding surface normal.";
Float32 Maximum 180.;
Float32 Minimum 0.;
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Degrees";
}
/RetrievalGeometry/retrieval_num_topo_points {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_num_topo_points";
String Description "The number of Earth topography points sampled over the sounding used to derive altitude, surface_roughness, slope, aspect and plane_fit_quality.";
String Shape "Retrieval_Array";
String Type "Signed16";
}
/RetrievalGeometry/retrieval_overlap {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_overlap";
String Description "Area of intersection of all three band footprints relative to average area of all three band footprints.";
Float32 Maximum 100.;
Float32 Minimum 0.;
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Percent";
}
/RetrievalGeometry/retrieval_overlap_o2_weak_co2 {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_overlap_o2_weak_co2";
String Description "Area of intersection of the footprints of ABO2 and WCO2 relative to the average area of the two footprint .";
Float32 Maximum 100.;
Float32 Minimum 0.;
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Percent";
}
/RetrievalGeometry/retrieval_overlap_strong_co2_o2 {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_overlap_strong_co2_o2";
String Description "Area of intersection of the footprints of ABO2 and SCO2 relative to the average area of the two footprints.";
Float32 Maximum 100.;
Float32 Minimum 0.;
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Percent";
}
/RetrievalGeometry/retrieval_overlap_weak_co2_strong_co2 {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_overlap_weak_co2_strong_co2";
String Description "Area of intersection of the footprints of WCO2 and SCO2 relative to the average area of the two footprints .";
Float32 Maximum 100.;
Float32 Minimum 0.;
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Percent";
}
/RetrievalGeometry/retrieval_plane_fit_quality {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_plane_fit_quality";
String Description "An indicator of the applicability of the fitted slope and aspect: the standard deviation of distance to fitted plane for Earth topography sampled over the sounding.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Meters";
}
/RetrievalGeometry/retrieval_polarization_angle {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_polarization_angle";
String Description "The angle between the accepted polarization axis of the instrument and the instrument reference plane for polarization, defined as the plane formed by the LOS and the ray from the sounding location to the local zenith.";
Float32 Maximum 360.;
Float32 Minimum 0.;
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Degrees";
}
/RetrievalGeometry/retrieval_relative_velocity {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_relative_velocity";
String Description "Velocity of the spacecraft along the LOS: positive indicates spacecraft moving toward sounding location.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Meters Second^{-1}";
}
/RetrievalGeometry/retrieval_slant_path_diff_o2_weak_co2 {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_slant_path_diff_o2_weak_co2";
String Description "Difference in slant path between ABO2 and WCO2 footprints.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Meters";
}
/RetrievalGeometry/retrieval_slant_path_diff_strong_co2_o2 {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_slant_path_diff_strong_co2_o2";
String Description "Difference in slant path between SCO2 and ABO2 footprints.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Meters";
}
/RetrievalGeometry/retrieval_slant_path_diff_weak_co2_strong_co2 {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_slant_path_diff_weak_co2_strong_co2";
String Description "Difference in slant path between WCO2 and SCO2 footprints.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Meters";
}
/RetrievalGeometry/retrieval_slope {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_slope";
String Description "Slope of a plane fit to Earth topography sampled over the sounding.";
Float32 Maximum 180.;
Float32 Minimum 0.;
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Degrees";
}
/RetrievalGeometry/retrieval_solar_azimuth {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_solar_azimuth";
String Description "Angle between the solar direction as defined from the sounding location to the sun, and the sounding location local north direction.";
Float32 Maximum 360.;
Float32 Minimum 0.;
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Degrees";
}
/RetrievalGeometry/retrieval_solar_distance {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_solar_distance";
String Description "Distance between sounding location and the Sun.";
String Shape "Retrieval_Array";
String Type "Float64";
String Units "Meters";
}
/RetrievalGeometry/retrieval_solar_relative_velocity {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_solar_relative_velocity";
String Description "Velocity of the Sun along the sounding location/Sun vector: negative indicates Sun moving toward sounding location.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Meters Second^{-1}";
}
/RetrievalGeometry/retrieval_solar_surface_bidirectional_angle {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_solar_surface_bidirectional_angle";
String Description "Angle between the solar direction as defined from the sounding location to the sun, and the sounding surface normal.";
Float32 Maximum 180.;
Float32 Minimum 0.;
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Degrees";
}
/RetrievalGeometry/retrieval_solar_zenith {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_solar_zenith";
String Description "Angle between the solar direction as defined from the sounding location to the sun, and the sounding location local zenith direction.";
Float32 Maximum 180.;
Float32 Minimum 0.;
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Degrees";
}
/RetrievalGeometry/retrieval_surface_roughness {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_surface_roughness";
String Description "Standard deviation of altitude from Earth topography sampled over the sounding.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Meters";
}
/RetrievalGeometry/retrieval_vertex_latitude {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_vertex_latitude";
String Description "Geodetic latitude of the retrieval vertices using Earth topgography.";
Float32 Maximum 90.;
Float32 Minimum -90.;
String Shape "Retrieval_Spectrum_Vertex_Array";
String Type "Float32";
String Units "Degrees";
}
/RetrievalGeometry/retrieval_vertex_longitude {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_vertex_longitude";
String Description "Longitude of the retrieval vertices using Earth topgography.";
Float32 Maximum 180.;
Float32 Minimum -180.;
String Shape "Retrieval_Spectrum_Vertex_Array";
String Type "Float32";
String Units "Degrees";
}
/RetrievalGeometry/retrieval_zenith {
String HDF5_OBJ_FULLPATH "/RetrievalGeometry/retrieval_zenith";
String Description "Angle between the LOS as defined from the sounding location to the spacecraft, and the sounding location local zenith direction.";
Float32 Maximum 180.;
Float32 Minimum 0.;
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Degrees";
}
/RetrievalHeader/ {
String HDF5_OBJ_FULLPATH "/RetrievalHeader/";
}
/RetrievalHeader/frame_index {
String HDF5_OBJ_FULLPATH "/RetrievalHeader/frame_index";
String Description "Index of the frame dimension of the corresponding sounding in L1bScSoundingReference data elements.";
String Shape "Retrieval_Array";
String Type "Signed32";
}
/RetrievalHeader/retrieval_time_string {
String HDF5_OBJ_FULLPATH "/RetrievalHeader/retrieval_time_string";
String Description "Data acquisition time for the sounding based upon the three footprint times (yyyy-mm-ddThh:mm:ss.mmmZ).";
String Shape "Retrieval_Array";
String Type "FixLenStr";
}
/RetrievalHeader/retrieval_time_tai93 {
String HDF5_OBJ_FULLPATH "/RetrievalHeader/retrieval_time_tai93";
String Description "Data acquisition time for the sounding based upon the three footprint times in seconds since Jan. 1, 1993.";
String Shape "Retrieval_Array";
String Type "Float64";
String Units "Seconds";
}
/RetrievalHeader/sounding_id {
String HDF5_OBJ_FULLPATH "/RetrievalHeader/sounding_id";
String Description "The sounding_id of the sounding containing the spectra used to perform the retrieval.";
String Shape "Retrieval_Array";
String Type "Signed64";
}
/RetrievalHeader/sounding_index {
String HDF5_OBJ_FULLPATH "/RetrievalHeader/sounding_index";
String Description "Index of the sounding dimension of the corresponding sounding in the L1bScSoundingReference data elements.";
String Shape "Retrieval_Array";
String Type "Signed32";
}
/RetrievalHeader/sounding_operation_mode {
String HDF5_OBJ_FULLPATH "/RetrievalHeader/sounding_operation_mode";
String Description "The two-letter abbreviation of the science AcquisitionMode: GL, ND, TG, XS.";
String Shape "Retrieval_Array";
String Type "FixLenStr";
}
/RetrievalResults/ {
String HDF5_OBJ_FULLPATH "/RetrievalResults/";
}
/RetrievalResults/apriori_o2_column {
String HDF5_OBJ_FULLPATH "/RetrievalResults/apriori_o2_column";
String Description "A priori vertical column of O2.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Molecules Meter^{-2}";
}
/RetrievalResults/co2_profile {
String HDF5_OBJ_FULLPATH "/RetrievalResults/co2_profile";
String Description "Vertical profile of CO2.";
String Shape "Retrieval_Level_Array";
String Type "Float32";
String Units "Moles Mole^{-1}";
}
/RetrievalResults/co2_profile_apriori {
String HDF5_OBJ_FULLPATH "/RetrievalResults/co2_profile_apriori";
String Description "Vertical a priori profile of CO2.";
String Shape "Retrieval_Level_Array";
String Type "Float32";
String Units "Moles Mole^{-1}";
}
/RetrievalResults/co2_profile_averaging_kernel_matrix {
String HDF5_OBJ_FULLPATH "/RetrievalResults/co2_profile_averaging_kernel_matrix";
String Description "Averaging kernel for CO2 profile.";
String Shape "Retrieval_Level_Level_Array";
String Type "Float32";
}
/RetrievalResults/co2_profile_covariance_matrix {
String HDF5_OBJ_FULLPATH "/RetrievalResults/co2_profile_covariance_matrix";
String Description "Covariance matrix for CO2 profile.";
String Shape "Retrieval_Level_Level_Array";
String Type "Float32";
String Units "Moles^{2} Mole^{-2}";
}
/RetrievalResults/co2_profile_uncert {
String HDF5_OBJ_FULLPATH "/RetrievalResults/co2_profile_uncert";
String Description "Vertical profile of CO2 uncertainty.";
String Shape "Retrieval_Level_Array";
String Type "Float32";
String Units "Moles Mole^{-1}";
}
/RetrievalResults/co2_vertical_gradient_delta {
String HDF5_OBJ_FULLPATH "/RetrievalResults/co2_vertical_gradient_delta";
String Description "The change from apriori to retrieved value of the vertical gradient in the co2 profile. Indicates that the apriori co2 profile was substantially different than that which was retrieved.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Moles Mole^{-1}";
}
/RetrievalResults/diverging_steps {
String HDF5_OBJ_FULLPATH "/RetrievalResults/diverging_steps";
String Description "Number of iteratations in which solution diverged.";
String Shape "Retrieval_Array";
String Type "Signed16";
}
/RetrievalResults/dof_co2_profile {
String HDF5_OBJ_FULLPATH "/RetrievalResults/dof_co2_profile";
String Description "Degrees of freedom (XCO2 only).";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/dof_full_vector {
String HDF5_OBJ_FULLPATH "/RetrievalResults/dof_full_vector";
String Description "Degrees of freedom (Full state vector).";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/eof_1_scale_apriori_o2 {
String HDF5_OBJ_FULLPATH "/RetrievalResults/eof_1_scale_apriori_o2";
String Description "A priori of retrieved scale factor of first empirical orthogonal residual function in ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/eof_1_scale_apriori_strong_co2 {
String HDF5_OBJ_FULLPATH "/RetrievalResults/eof_1_scale_apriori_strong_co2";
String Description "A priori of retrieved scale factor of first empirical orthogonal residual function in SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/eof_1_scale_apriori_weak_co2 {
String HDF5_OBJ_FULLPATH "/RetrievalResults/eof_1_scale_apriori_weak_co2";
String Description "A priori of retrieved scale factor of first empirical orthogonal residual function in WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/eof_1_scale_o2 {
String HDF5_OBJ_FULLPATH "/RetrievalResults/eof_1_scale_o2";
String Description "Retrieved scale factor of first empirical orthogonal residual function in ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/eof_1_scale_strong_co2 {
String HDF5_OBJ_FULLPATH "/RetrievalResults/eof_1_scale_strong_co2";
String Description "Retrieved scale factor of first empirical orthogonal residual function in SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/eof_1_scale_uncert_o2 {
String HDF5_OBJ_FULLPATH "/RetrievalResults/eof_1_scale_uncert_o2";
String Description "Uncertaintly of retrieved scale factor of first empirical orthogonal residual function in ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/eof_1_scale_uncert_strong_co2 {
String HDF5_OBJ_FULLPATH "/RetrievalResults/eof_1_scale_uncert_strong_co2";
String Description "Uncertaintly of retrieved scale factor of first empirical orthogonal residual function in SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/eof_1_scale_uncert_weak_co2 {
String HDF5_OBJ_FULLPATH "/RetrievalResults/eof_1_scale_uncert_weak_co2";
String Description "Uncertaintly of retrieved scale factor of first empirical orthogonal residual function in WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/eof_1_scale_weak_co2 {
String HDF5_OBJ_FULLPATH "/RetrievalResults/eof_1_scale_weak_co2";
String Description "Retrieved scale factor of first empirical orthogonal residual function in WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/eof_2_scale_apriori_o2 {
String HDF5_OBJ_FULLPATH "/RetrievalResults/eof_2_scale_apriori_o2";
String Description "A priori of retrieved scale factor of second empirical orthogonal residual function in ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/eof_2_scale_apriori_strong_co2 {
String HDF5_OBJ_FULLPATH "/RetrievalResults/eof_2_scale_apriori_strong_co2";
String Description "A priori of retrieved scale factor of second empirical orthogonal residual function in SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/eof_2_scale_apriori_weak_co2 {
String HDF5_OBJ_FULLPATH "/RetrievalResults/eof_2_scale_apriori_weak_co2";
String Description "A priori of retrieved scale factor of second empirical orthogonal residual function in WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/eof_2_scale_o2 {
String HDF5_OBJ_FULLPATH "/RetrievalResults/eof_2_scale_o2";
String Description "Retrieved scale factor of second empirical orthogonal residual function in ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/eof_2_scale_strong_co2 {
String HDF5_OBJ_FULLPATH "/RetrievalResults/eof_2_scale_strong_co2";
String Description "Retrieved scale factor of second empirical orthogonal residual function in SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/eof_2_scale_uncert_o2 {
String HDF5_OBJ_FULLPATH "/RetrievalResults/eof_2_scale_uncert_o2";
String Description "Uncertaintly of retrieved scale factor of second empirical orthogonal residual function in ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/eof_2_scale_uncert_strong_co2 {
String HDF5_OBJ_FULLPATH "/RetrievalResults/eof_2_scale_uncert_strong_co2";
String Description "Uncertaintly of retrieved scale factor of second empirical orthogonal residual function in SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/eof_2_scale_uncert_weak_co2 {
String HDF5_OBJ_FULLPATH "/RetrievalResults/eof_2_scale_uncert_weak_co2";
String Description "Uncertaintly of retrieved scale factor of second empirical orthogonal residual function in WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/eof_2_scale_weak_co2 {
String HDF5_OBJ_FULLPATH "/RetrievalResults/eof_2_scale_weak_co2";
String Description "Retrieved scale factor of second empirical orthogonal residual function in WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/eof_3_scale_apriori_o2 {
String HDF5_OBJ_FULLPATH "/RetrievalResults/eof_3_scale_apriori_o2";
String Description "A priori of retrieved scale factor of third empirical orthogonal residual function in ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/eof_3_scale_apriori_strong_co2 {
String HDF5_OBJ_FULLPATH "/RetrievalResults/eof_3_scale_apriori_strong_co2";
String Description "A priori of retrieved scale factor of third empirical orthogonal residual function in SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/eof_3_scale_apriori_weak_co2 {
String HDF5_OBJ_FULLPATH "/RetrievalResults/eof_3_scale_apriori_weak_co2";
String Description "A priori of retrieved scale factor of third empirical orthogonal residual function in WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/eof_3_scale_o2 {
String HDF5_OBJ_FULLPATH "/RetrievalResults/eof_3_scale_o2";
String Description "Retrieved scale factor of third empirical orthogonal residual function in ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/eof_3_scale_strong_co2 {
String HDF5_OBJ_FULLPATH "/RetrievalResults/eof_3_scale_strong_co2";
String Description "Retrieved scale factor of third empirical orthogonal residual function in SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/eof_3_scale_uncert_o2 {
String HDF5_OBJ_FULLPATH "/RetrievalResults/eof_3_scale_uncert_o2";
String Description "Uncertaintly of retrieved scale factor of third empirical orthogonal residual function in ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/eof_3_scale_uncert_strong_co2 {
String HDF5_OBJ_FULLPATH "/RetrievalResults/eof_3_scale_uncert_strong_co2";
String Description "Uncertaintly of retrieved scale factor of third empirical orthogonal residual function in SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/eof_3_scale_uncert_weak_co2 {
String HDF5_OBJ_FULLPATH "/RetrievalResults/eof_3_scale_uncert_weak_co2";
String Description "Uncertaintly of retrieved scale factor of third empirical orthogonal residual function in WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/eof_3_scale_weak_co2 {
String HDF5_OBJ_FULLPATH "/RetrievalResults/eof_3_scale_weak_co2";
String Description "Retrieved scale factor of third empirical orthogonal residual function in WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/fluorescence_at_reference {
String HDF5_OBJ_FULLPATH "/RetrievalResults/fluorescence_at_reference";
String Description "Retrieved fluorescence at 0.757 microns.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/RetrievalResults/fluorescence_at_reference_apriori {
String HDF5_OBJ_FULLPATH "/RetrievalResults/fluorescence_at_reference_apriori";
String Description "A priori of retrieved fluorescence at 0.757 microns.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/RetrievalResults/fluorescence_at_reference_uncert {
String HDF5_OBJ_FULLPATH "/RetrievalResults/fluorescence_at_reference_uncert";
String Description "Uncertainty of retrieved fluorescence at 0.757 microns.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/RetrievalResults/fluorescence_slope {
String HDF5_OBJ_FULLPATH "/RetrievalResults/fluorescence_slope";
String Description "Retrieved fluorescence slope at 0.757 microns.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-2}";
}
/RetrievalResults/fluorescence_slope_apriori {
String HDF5_OBJ_FULLPATH "/RetrievalResults/fluorescence_slope_apriori";
String Description "A priori of retrieved fluorescence slope at 0.757 microns.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-2}";
}
/RetrievalResults/fluorescence_slope_uncert {
String HDF5_OBJ_FULLPATH "/RetrievalResults/fluorescence_slope_uncert";
String Description "Uncertainty of retrieved fluorescence slope at 0.757 microns.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-2}";
}
/RetrievalResults/h2o_scale_factor {
String HDF5_OBJ_FULLPATH "/RetrievalResults/h2o_scale_factor";
String Description "Retrieved scale factor for H2O profile.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/h2o_scale_factor_apriori {
String HDF5_OBJ_FULLPATH "/RetrievalResults/h2o_scale_factor_apriori";
String Description "A priori of retrieved scale factor for H2O profile.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/h2o_scale_factor_uncert {
String HDF5_OBJ_FULLPATH "/RetrievalResults/h2o_scale_factor_uncert";
String Description "Uncertainty of retrieved scale factor for H2O profile.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/iterations {
String HDF5_OBJ_FULLPATH "/RetrievalResults/iterations";
String Description "Number of iterations.";
String Shape "Retrieval_Array";
String Type "Signed16";
}
/RetrievalResults/last_step_levenberg_marquardt_parameter {
String HDF5_OBJ_FULLPATH "/RetrievalResults/last_step_levenberg_marquardt_parameter";
String Description "Levenberg Marquardt parameter corresponding to last iteration.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/RetrievalResults/num_active_levels {
String HDF5_OBJ_FULLPATH "/RetrievalResults/num_active_levels";
String Description "Number of levels in atmospheric model.";
String Shape "Retrieval_Array";
String Type "Signed16";
}
/RetrievalResults/outcome_flag {
String HDF5_OBJ_FULLPATH "/RetrievalResults/outcome_flag";
String Description "Indicator of retrieval results: 1 - 'Passed internal quality check', 2 - 'Failed internal qualiy check', 3 - 'Reached maximum alowed iterations', 4 - 'Reached maximum allowed divergences'.";
String Shape "Retrieval_Array";
String Type "Signed8";
}
/RetrievalResults/retrieved_co2_column {
String HDF5_OBJ_FULLPATH "/RetrievalResults/retrieved_co2_column";
String Description "Retrieved vertical column of CO2.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Molecules Meter^{-2}";
}
/RetrievalResults/retrieved_dry_air_column_layer_thickness {
String HDF5_OBJ_FULLPATH "/RetrievalResults/retrieved_dry_air_column_layer_thickness";
String Description "Retrieved vertical column of dry air per atmospheric layer.";
String Shape "Retrieval_Layer_Array";
String Type "Float32";
String Units "Molecules Meter^{-2}";
}
/RetrievalResults/retrieved_h2o_column {
String HDF5_OBJ_FULLPATH "/RetrievalResults/retrieved_h2o_column";
String Description "Retrieved vertical column of H2O.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Molecules Meter^{-2}";
}
/RetrievalResults/retrieved_h2o_column_layer_thickness {
String HDF5_OBJ_FULLPATH "/RetrievalResults/retrieved_h2o_column_layer_thickness";
String Description "Retrieved vertical column of H2O per atmospheric layer.";
String Shape "Retrieval_Layer_Array";
String Type "Float32";
String Units "Molecules Meter^{-2}";
}
/RetrievalResults/retrieved_o2_column {
String HDF5_OBJ_FULLPATH "/RetrievalResults/retrieved_o2_column";
String Description "Retrieved vertical column of O2.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Molecules Meter^{-2}";
}
/RetrievalResults/retrieved_wet_air_column_layer_thickness {
String HDF5_OBJ_FULLPATH "/RetrievalResults/retrieved_wet_air_column_layer_thickness";
String Description "Retrieved vertical column of wet air per atmospheric layer.";
String Shape "Retrieval_Layer_Array";
String Type "Float32";
String Units "Molecules Meter^{-2}";
}
/RetrievalResults/specific_humidity_profile_met {
String HDF5_OBJ_FULLPATH "/RetrievalResults/specific_humidity_profile_met";
String Description "Meteorological specific humidity profile interpolated to observation location, time.";
String Shape "Retrieval_MetLevel_Array";
String Type "Float32";
String Units "Kilograms Kilogram^{-1}";
}
/RetrievalResults/surface_pressure_apriori_fph {
String HDF5_OBJ_FULLPATH "/RetrievalResults/surface_pressure_apriori_fph";
String Description "A priori surface pressure retrieved by Full-physics algorithm.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Pascals";
}
/RetrievalResults/surface_pressure_fph {
String HDF5_OBJ_FULLPATH "/RetrievalResults/surface_pressure_fph";
String Description "Surface pressure retrieved by Full-physics algorithm.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Pascals";
}
/RetrievalResults/surface_pressure_uncert_fph {
String HDF5_OBJ_FULLPATH "/RetrievalResults/surface_pressure_uncert_fph";
String Description "Uncertainty in the surface pressure retrieved by the Full-physics algorithm.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Pascals";
}
/RetrievalResults/surface_type {
String HDF5_OBJ_FULLPATH "/RetrievalResults/surface_type";
String Description "Type of model used for the Earth's surface: 'Lambertian' or ' Coxmumk,Lambertian'.";
String Shape "Retrieval_Array";
String Type "FixLenStr";
}
/RetrievalResults/temperature_offset_apriori_fph {
String HDF5_OBJ_FULLPATH "/RetrievalResults/temperature_offset_apriori_fph";
String Description "A priori of retrieved offset of temperature profile.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Kelvins";
}
/RetrievalResults/temperature_offset_fph {
String HDF5_OBJ_FULLPATH "/RetrievalResults/temperature_offset_fph";
String Description "Retrieved offset of temperature profile.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Kelvins";
}
/RetrievalResults/temperature_offset_uncert_fph {
String HDF5_OBJ_FULLPATH "/RetrievalResults/temperature_offset_uncert_fph";
String Description "Uncertainty of retrieved offset of temperature profile.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Kelvins";
}
/RetrievalResults/temperature_profile_met {
String HDF5_OBJ_FULLPATH "/RetrievalResults/temperature_profile_met";
String Description "Meteorological temperature profile interpolated to observation location, time.";
String Shape "Retrieval_MetLevel_Array";
String Type "Float32";
String Units "Kelvins";
}
/RetrievalResults/tropopause_altitude {
String HDF5_OBJ_FULLPATH "/RetrievalResults/tropopause_altitude";
String Description "Inferred tropopause altitude based on lapse rate.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Meters";
}
/RetrievalResults/tropopause_pressure {
String HDF5_OBJ_FULLPATH "/RetrievalResults/tropopause_pressure";
String Description "Inferred tropopause pressure altitude based on lapse rate.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Pascals";
}
/RetrievalResults/vector_altitude_levels {
String HDF5_OBJ_FULLPATH "/RetrievalResults/vector_altitude_levels";
String Description "Altitude corresponding to each atmospheric level.";
String Shape "Retrieval_Level_Array";
String Type "Float32";
String Units "Meters";
}
/RetrievalResults/vector_altitude_levels_apriori {
String HDF5_OBJ_FULLPATH "/RetrievalResults/vector_altitude_levels_apriori";
String Description "A priori altitude corresponding to each atmospheric level.";
String Shape "Retrieval_Level_Array";
String Type "Float32";
String Units "Meters";
}
/RetrievalResults/vector_pressure_levels {
String HDF5_OBJ_FULLPATH "/RetrievalResults/vector_pressure_levels";
String Description "Pressure altitude corresponding to each atmospheric level.";
String Shape "Retrieval_Level_Array";
String Type "Float32";
String Units "Pascals";
}
/RetrievalResults/vector_pressure_levels_apriori {
String HDF5_OBJ_FULLPATH "/RetrievalResults/vector_pressure_levels_apriori";
String Description "A priori pressure altitude corresponding to each atmospheric level.";
String Shape "Retrieval_Level_Array";
String Type "Float32";
String Units "Pascals";
}
/RetrievalResults/vector_pressure_levels_met {
String HDF5_OBJ_FULLPATH "/RetrievalResults/vector_pressure_levels_met";
String Description "Pressure altitude corresponding to each meteorological atmospheric level.";
String Shape "Retrieval_MetLevel_Array";
String Type "Float32";
String Units "Pascals";
}
/RetrievalResults/wind_speed {
String HDF5_OBJ_FULLPATH "/RetrievalResults/wind_speed";
String Description "Retrieved Cox-Munk wind speed.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Meters Second^{-1}";
}
/RetrievalResults/wind_speed_apriori {
String HDF5_OBJ_FULLPATH "/RetrievalResults/wind_speed_apriori";
String Description "A priori of retrived Cox-Munk wind speed.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Meters Second^{-1}";
}
/RetrievalResults/wind_speed_u_met {
String HDF5_OBJ_FULLPATH "/RetrievalResults/wind_speed_u_met";
String Description "Meteorological eastward wind interpolated to observation location, time.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Meters Second^{-1}";
}
/RetrievalResults/wind_speed_uncert {
String HDF5_OBJ_FULLPATH "/RetrievalResults/wind_speed_uncert";
String Description "Uncertainty of retrieved Cox-Munk wind speed.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Meters Second^{-1}";
}
/RetrievalResults/wind_speed_v_met {
String HDF5_OBJ_FULLPATH "/RetrievalResults/wind_speed_v_met";
String Description "Meteorological northward wind interpolated to observation location, time.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Meters Second^{-1}";
}
/RetrievalResults/xco2 {
String HDF5_OBJ_FULLPATH "/RetrievalResults/xco2";
String Description "Column-averaged CO2 dry air mole fraction.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Moles Mole^{-1}";
}
/RetrievalResults/xco2_apriori {
String HDF5_OBJ_FULLPATH "/RetrievalResults/xco2_apriori";
String Description "A priori of column-averaged CO2 dry air mole fraction.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Moles Mole^{-1}";
}
/RetrievalResults/xco2_avg_kernel {
String HDF5_OBJ_FULLPATH "/RetrievalResults/xco2_avg_kernel";
String Description "Column averaging kernel.";
String Shape "Retrieval_Level_Array";
String Type "Float32";
}
/RetrievalResults/xco2_avg_kernel_norm {
String HDF5_OBJ_FULLPATH "/RetrievalResults/xco2_avg_kernel_norm";
String Description "Normalized column averaging kernel.";
String Shape "Retrieval_Level_Array";
String Type "Float32";
}
/RetrievalResults/xco2_pressure_weighting_function {
String HDF5_OBJ_FULLPATH "/RetrievalResults/xco2_pressure_weighting_function";
String Description "Pressure weighting function used to form XCO2.";
String Shape "Retrieval_Level_Array";
String Type "Float32";
}
/RetrievalResults/xco2_uncert {
String HDF5_OBJ_FULLPATH "/RetrievalResults/xco2_uncert";
String Description "Uncertainty in column averaged CO2 dry air mole fraction.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Moles Mole^{-1}";
}
/RetrievalResults/xco2_uncert_interf {
String HDF5_OBJ_FULLPATH "/RetrievalResults/xco2_uncert_interf";
String Description "Variance of XCO2 due to interference.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Moles Mole^{-1}";
}
/RetrievalResults/xco2_uncert_noise {
String HDF5_OBJ_FULLPATH "/RetrievalResults/xco2_uncert_noise";
String Description "Variance of XCO2 due to noise.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Moles Mole^{-1}";
}
/RetrievalResults/xco2_uncert_smooth {
String HDF5_OBJ_FULLPATH "/RetrievalResults/xco2_uncert_smooth";
String Description "Variance of XCO2 due to smoothing.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Moles Mole^{-1}";
}
/Shapes/ {
String HDF5_OBJ_FULLPATH "/Shapes/";
}
/Shapes/AerosolType_Array/ {
String HDF5_OBJ_FULLPATH "/Shapes/AerosolType_Array/";
String Dimensions "AerosolType";
UInt32 Rank 1;
}
/Shapes/AncFile_Array/ {
String HDF5_OBJ_FULLPATH "/Shapes/AncFile_Array/";
String Dimensions "AncFile";
UInt32 Rank 1;
}
/Shapes/Frame_Sounding_Array/ {
String HDF5_OBJ_FULLPATH "/Shapes/Frame_Sounding_Array/";
String Dimensions "Frame", "Sounding";
UInt32 Rank 2;
}
/Shapes/Gap_Array/ {
String HDF5_OBJ_FULLPATH "/Shapes/Gap_Array/";
String Dimensions "Gap";
UInt32 Rank 1;
}
/Shapes/InputPtr_Array/ {
String HDF5_OBJ_FULLPATH "/Shapes/InputPtr_Array/";
String Dimensions "InputPtr";
UInt32 Rank 1;
}
/Shapes/L2FullPhysicsInputPtr_Array/ {
String HDF5_OBJ_FULLPATH "/Shapes/L2FullPhysicsInputPtr_Array/";
String Dimensions "L2FullPhysicsInputPtr";
UInt32 Rank 1;
}
/Shapes/O2Slice_Array/ {
String HDF5_OBJ_FULLPATH "/Shapes/O2Slice_Array/";
String Dimensions "O2Slice";
UInt32 Rank 1;
}
/Shapes/OrbitParamPtr_Array/ {
String HDF5_OBJ_FULLPATH "/Shapes/OrbitParamPtr_Array/";
String Dimensions "OrbitParamPtr";
UInt32 Rank 1;
}
/Shapes/Retrieval_AerosolType_AerosolParam_Array/ {
String HDF5_OBJ_FULLPATH "/Shapes/Retrieval_AerosolType_AerosolParam_Array/";
String Dimensions "Retrieval", "AerosolType", "AerosolParam";
UInt32 Rank 3;
}
/Shapes/Retrieval_AerosolType_AerosolSubColumn_Array/ {
String HDF5_OBJ_FULLPATH "/Shapes/Retrieval_AerosolType_AerosolSubColumn_Array/";
String Dimensions "Retrieval", "AerosolType", "AerosolSubColumn";
UInt32 Rank 3;
}
/Shapes/Retrieval_AerosolType_Array/ {
String HDF5_OBJ_FULLPATH "/Shapes/Retrieval_AerosolType_Array/";
String Dimensions "Retrieval", "AerosolType";
UInt32 Rank 2;
}
/Shapes/Retrieval_AlbedoWavelength_Array/ {
String HDF5_OBJ_FULLPATH "/Shapes/Retrieval_AlbedoWavelength_Array/";
String Dimensions "Retrieval", "AlbedoWavelength";
UInt32 Rank 2;
}
/Shapes/Retrieval_Array/ {
String HDF5_OBJ_FULLPATH "/Shapes/Retrieval_Array/";
String Dimensions "Retrieval";
UInt32 Rank 1;
}
/Shapes/Retrieval_EuclidDim_Array/ {
String HDF5_OBJ_FULLPATH "/Shapes/Retrieval_EuclidDim_Array/";
String Dimensions "Retrieval", "EuclidDim";
UInt32 Rank 2;
}
/Shapes/Retrieval_Layer_Array/ {
String HDF5_OBJ_FULLPATH "/Shapes/Retrieval_Layer_Array/";
String Dimensions "Retrieval", "Layer";
UInt32 Rank 2;
}
/Shapes/Retrieval_Level_Array/ {
String HDF5_OBJ_FULLPATH "/Shapes/Retrieval_Level_Array/";
String Dimensions "Retrieval", "Level";
UInt32 Rank 2;
}
/Shapes/Retrieval_Level_Level_Array/ {
String HDF5_OBJ_FULLPATH "/Shapes/Retrieval_Level_Level_Array/";
String Dimensions "Retrieval", "Level", "Level";
UInt32 Rank 3;
}
/Shapes/Retrieval_MetLevel_Array/ {
String HDF5_OBJ_FULLPATH "/Shapes/Retrieval_MetLevel_Array/";
String Dimensions "Retrieval", "MetLevel";
UInt32 Rank 2;
}
/Shapes/Retrieval_O2Slice_Array/ {
String HDF5_OBJ_FULLPATH "/Shapes/Retrieval_O2Slice_Array/";
String Dimensions "Retrieval", "O2Slice";
UInt32 Rank 2;
}
/Shapes/Retrieval_Spectrum_Array/ {
String HDF5_OBJ_FULLPATH "/Shapes/Retrieval_Spectrum_Array/";
String Dimensions "Retrieval", "Spectrum";
UInt32 Rank 2;
}
/Shapes/Retrieval_Spectrum_Vertex_Array/ {
String HDF5_OBJ_FULLPATH "/Shapes/Retrieval_Spectrum_Vertex_Array/";
String Dimensions "Retrieval", "Spectrum", "Vertex";
UInt32 Rank 3;
}
/Shapes/Retrieval_StrongCO2Slice_Array/ {
String HDF5_OBJ_FULLPATH "/Shapes/Retrieval_StrongCO2Slice_Array/";
String Dimensions "Retrieval", "StrongCO2Slice";
UInt32 Rank 2;
}
/Shapes/Retrieval_WeakCO2Slice_Array/ {
String HDF5_OBJ_FULLPATH "/Shapes/Retrieval_WeakCO2Slice_Array/";
String Dimensions "Retrieval", "WeakCO2Slice";
UInt32 Rank 2;
}
/Shapes/Scalar/ {
String HDF5_OBJ_FULLPATH "/Shapes/Scalar/";
UInt32 Rank 0;
}
/Shapes/SoundingPosition_Array/ {
String HDF5_OBJ_FULLPATH "/Shapes/SoundingPosition_Array/";
String Dimensions "SoundingPosition";
UInt32 Rank 1;
}
/Shapes/Spectrum_Array/ {
String HDF5_OBJ_FULLPATH "/Shapes/Spectrum_Array/";
String Dimensions "Spectrum";
UInt32 Rank 1;
}
/Shapes/StrongCO2Slice_Array/ {
String HDF5_OBJ_FULLPATH "/Shapes/StrongCO2Slice_Array/";
String Dimensions "StrongCO2Slice";
UInt32 Rank 1;
}
/Shapes/WeakCO2Slice_Array/ {
String HDF5_OBJ_FULLPATH "/Shapes/WeakCO2Slice_Array/";
String Dimensions "WeakCO2Slice";
UInt32 Rank 1;
}
/SpectralParameters/ {
String HDF5_OBJ_FULLPATH "/SpectralParameters/";
}
/SpectralParameters/noise_o2_fph {
String HDF5_OBJ_FULLPATH "/SpectralParameters/noise_o2_fph";
String Description "Aggregate noise in the ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/SpectralParameters/noise_strong_co2_fph {
String HDF5_OBJ_FULLPATH "/SpectralParameters/noise_strong_co2_fph";
String Description "Aggregate noise in the SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/SpectralParameters/noise_weak_co2_fph {
String HDF5_OBJ_FULLPATH "/SpectralParameters/noise_weak_co2_fph";
String Description "Aggregate noise in the WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/SpectralParameters/reduced_chi_squared_o2_fph {
String HDF5_OBJ_FULLPATH "/SpectralParameters/reduced_chi_squared_o2_fph";
String Description "Reduced chi squared of spectral fit of the ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/SpectralParameters/reduced_chi_squared_strong_co2_fph {
String HDF5_OBJ_FULLPATH "/SpectralParameters/reduced_chi_squared_strong_co2_fph";
String Description "Reduced chi squared of spectral fit of the SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/SpectralParameters/reduced_chi_squared_weak_co2_fph {
String HDF5_OBJ_FULLPATH "/SpectralParameters/reduced_chi_squared_weak_co2_fph";
String Description "Reduced chi squared of spectral fit of the WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/SpectralParameters/relative_residual_mean_square_o2 {
String HDF5_OBJ_FULLPATH "/SpectralParameters/relative_residual_mean_square_o2";
String Description "Mean square of the residuals divided by the signal for the ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/SpectralParameters/relative_residual_mean_square_strong_co2 {
String HDF5_OBJ_FULLPATH "/SpectralParameters/relative_residual_mean_square_strong_co2";
String Description "Mean square of the residuals divided by the signal for the SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/SpectralParameters/relative_residual_mean_square_weak_co2 {
String HDF5_OBJ_FULLPATH "/SpectralParameters/relative_residual_mean_square_weak_co2";
String Description "Mean square of the residuals divided by the signal for the WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
}
/SpectralParameters/residual_mean_square_o2 {
String HDF5_OBJ_FULLPATH "/SpectralParameters/residual_mean_square_o2";
String Description "Mean of the squares of the residuals for the ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/SpectralParameters/residual_mean_square_strong_co2 {
String HDF5_OBJ_FULLPATH "/SpectralParameters/residual_mean_square_strong_co2";
String Description "Mean of the squares of the residuals for the SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/SpectralParameters/residual_mean_square_weak_co2 {
String HDF5_OBJ_FULLPATH "/SpectralParameters/residual_mean_square_weak_co2";
String Description "Mean of the squares of the residuals for the WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/SpectralParameters/signal_o2_fph {
String HDF5_OBJ_FULLPATH "/SpectralParameters/signal_o2_fph";
String Description "Aggregate signal in the ABO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/SpectralParameters/signal_strong_co2_fph {
String HDF5_OBJ_FULLPATH "/SpectralParameters/signal_strong_co2_fph";
String Description "Aggregate signal in the SCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
/SpectralParameters/signal_weak_co2_fph {
String HDF5_OBJ_FULLPATH "/SpectralParameters/signal_weak_co2_fph";
String Description "Aggregate signal in the WCO2 band.";
String Shape "Retrieval_Array";
String Type "Float32";
String Units "Ph sec^{-1} m^{-2} sr^{-1} um^{-1}";
}
}