Attributes { CoreMetadata { INVENTORYMETADATA { String GROUPTYPE "MASTERGROUP"; GRANULE { GRANULEID { Int32 NUM_VAL 1; String VALUE "\"L1_LID\""; } GRANULENAME { Int32 NUM_VAL 1; String VALUE "\"CAL_LID_L1-Standard-V5-00.2007-01-01T00-22-49ZN.hdf\""; } GRANULEVERSION { Int32 NUM_VAL 1; String VALUE "\"V01\""; } DAYNIGHT { Int32 NUM_VAL 1; String VALUE "\"N\""; } BROWSE { Int32 NUM_VAL 1; String VALUE "\"N\""; } GRINGTYPE { Int32 NUM_VAL 1; String VALUE "\"S\""; } } METADATA { METADATANAME { Int32 NUM_VAL 1; String VALUE "\"CAL_LID_L1-Standard-V5-00.2007-01-01T00-22-49ZN.hdf.met\""; } } TEMPORALINFORMATION { PRODUCTIONDATETIME { Int32 NUM_VAL 1; String VALUE "\"2024-10-31T16:45:52Z\""; } START_DATE { Int32 NUM_VAL 1; String VALUE "\"2007-01-01T00:22:49.100000Z\""; } STOP_DATE { Int32 NUM_VAL 1; String VALUE "\"2007-01-01T01:09:10.588400Z\""; } } QA { QAFLAG { Int32 NUM_VAL 1; String VALUE "\"Passed\""; } QAEXPLANATION { Int32 NUM_VAL 1; String VALUE "\"All data passed during checkout\""; } } GEOMINMAX { MINLAT { Int32 NUM_VAL 1; Float64 VALUE -61.8136711120605; } MINLON { Int32 NUM_VAL 1; Float64 VALUE -6.8314003944397; } MAXLAT { Int32 NUM_VAL 1; Float64 VALUE 81.3875427246094; } MAXLON { Int32 NUM_VAL 1; Float64 VALUE 173.881225585938; } } GRING { GRINGCONTAINER { String CLASS "\"1\""; GRINGLATITUDE { String CLASS "\"1\""; Int32 NUM_VAL 21; Float64 VALUE 72.1097106933594, 81.3875427246094, 67.1549606323242, 49.1746253967285, 30.7149124145508, 12.0901145935059, -6.58250093460083, -25.2070198059082, -43.684154510498, -61.8136711120605, -61.8136711120605, -43.684154510498, -25.2070198059082, -6.58250093460083, 12.0901145935059, 30.7149124145508, 49.1746253967285, 67.1549606323242, 81.3875427246094, 72.1097106933594, 72.1097106933594; } GRINGLONGITUDE { String CLASS "\"1\""; Int32 NUM_VAL 21; Float64 VALUE 173.881225585938, 90.5765609741211, 37.6749000549316, 26.0199184417725, 20.0560131072998, 15.6350364685059, 11.6338109970093, 7.41820335388184, 2.12121844291687, -6.8314003944397, -6.8314003944397, 2.12121844291687, 7.41820335388184, 11.6338109970093, 15.6350364685059, 20.0560131072998, 26.0199184417725, 37.6749000549316, 90.5765609741211, 173.881225585938, 173.881225585938; } } } ORBITPATH { STARTORBITNUMBER { Int32 NUM_VAL 1; Int32 VALUE 3607; } STOPORBITNUMBER { Int32 NUM_VAL 1; Int32 VALUE 3607; } ORBITCHANGETIME { Int32 NUM_VAL 1; Float64 VALUE -9.999999999999900e+05; } STARTPATHNUMBER { Int32 NUM_VAL 1; Int32 VALUE 168; } STOPPATHNUMBER { Int32 NUM_VAL 1; Int32 VALUE 184; } PATHCHANGETIME { Int32 NUM_VAL 1; Float64 VALUE 7.010101890728936e+04; } } } } ArchiveMetadata { ARCHIVEDMETADATA { String GROUPTYPE "MASTERGROUP"; NUMBEROFRECORDS { Int32 NUM_VAL 1; Int32 VALUE -1; } } } Profile_Time { String long_name "Profile_Time"; String units "TAI seconds"; String format "Float_64"; Float64 valid_range 420300000.00000000, 962300000.00000000; String comment "International Atomic Time (TAI) in elapsed seconds from January 1, 1993."; } Profile_Time_dim_0 { String name "Record_Number"; } Profile_Time_dim_1 { String name "Sample"; } Profile_UTC_Time { String long_name "Profile_UTC_Time"; String units "yymmdd.ffffffff"; String format "Float_64"; Float64 valid_range 60428.000000000000, 230701.00000000000; String comment "Coordinated Universal Time (UTC); format = yymmdd.ffffffff, where yy is a two digit data acquisition year number (06 to 23), mm is a month number (01 to 12), dd is a day number (1 to 31), and ffffffff is the elapsed fraction of the data acquisition day."; } Profile_UTC_Time_dim_0 { String name "Record_Number"; } Profile_UTC_Time_dim_1 { String name "Sample"; } Profile_ID { String long_name "Profile_ID"; String format "Int_32"; String units "NoUnits"; Int32 valid_range 1, 228630; String comment "Unique profile identifier generated sequentially for each single-shot profile record. Profile IDs are unique within each granule but not unique over multiple granules."; } Profile_ID_dim_0 { String name "Record_Number"; } Profile_ID_dim_1 { String name "Sample"; } Land_Water_Mask { String long_name "Land_Water_Mask"; String format "Int_8"; String units "NoUnits"; Int32 valid_range 0, 7; Int32 _FillValue -9; String comment "Surface type at the laser footprint provided by the CloudSat science team digital elevation model (DEM) (value - type): 0 - shallow ocean 1 - land 2 - coastlines 3 - shallow inland water 4 - intermittent water 5 - deep inland water 6 - continental ocean 7 - deep ocean"; } Land_Water_Mask_dim_0 { String name "Record_Number"; } Land_Water_Mask_dim_1 { String name "Sample"; } IGBP_Surface_Type { String long_name "IGBP_Surface_Type"; String format "Int_8"; String units "NoUnits"; Int32 valid_range 1, 18; Int32 _FillValue -9; String comment "IGBP surface type at the laser footprint provided by the CERES/SARB surface map (value - type): 1 - Evergreen-Needleleaf-Forest 2 - Evergreen-Broadleaf-Forest 3 - Deciduous-Needleleaf-Forest 4 - Deciduous-Broadleaf-Forest 5 - Mixed-Forest 6 - Closed-Shrubland 7 - Open-Shrubland (Desert) 8 - Woody-Savanna 9 - Savanna 10 - Grassland 11 - Wetland 12 - Cropland 13 - Urban 14 - Crop-Mosaic 15 - Permanent-Snow 16 - Barren/Desert 17 - Water 18 - Tundra"; } IGBP_Surface_Type_dim_0 { String name "Record_Number"; } IGBP_Surface_Type_dim_1 { String name "Sample"; } Snow_Ice_Surface_Type { String long_name "Snow_Ice_Surface_Type"; String format "UInt_8"; String units "NoUnits"; Byte valid_range 0, 255; String comment "Snow and ice coverage for the surface at the laser footprint provided by the U.S. Air Force Weather Agency (AFWA). Values between 0 and 100 represent the percentage of ice, while 101=permanent ice, 103=snow, and 255=mixed pixels at coastlines."; } Snow_Ice_Surface_Type_dim_0 { String name "Record_Number"; } Snow_Ice_Surface_Type_dim_1 { String name "Sample"; } Day_Night_Flag { String long_name "Day_Night_Flag"; String format "Int_8"; String units "NoUnits"; Int32 valid_range 0, 1; String comment "Lighting conditions at an altitude of ~24 km above mean sea level (value - lighting): 0 - daytime 1 - nighttime"; } Day_Night_Flag_dim_0 { String name "Record_Number"; } Day_Night_Flag_dim_1 { String name "Sample"; } Frame_Number { String long_name "Frame_Number"; String format "Int_16"; String units "NoUnits"; Int16 valid_range 1, 11; String comment "The number of current frame (5 km horizontal segment) within the sequence of 11 frames within a Payload Data Acquisition Cycle (PDAC)."; } Frame_Number_dim_0 { String name "Record_Number"; } Frame_Number_dim_1 { String name "Sample"; } Lidar_Mode { String long_name "Lidar_Mode"; String format "Int_16"; String units "NoUnits"; Int16 valid_range 1, 6; String comment "Lidar operations mode (value - mode): 1 - safe 2 - standby 3 - autonomous data collection 4 - built in test system (BITS) 5 - special operations 6 - diagnostic"; } Lidar_Mode_dim_0 { String name "Record_Number"; } Lidar_Mode_dim_1 { String name "Sample"; } Lidar_Submode { String long_name "Lidar_Submode"; String format "Int_16"; String units "NoUnits"; Int16 valid_range 1, 25; String comment "Lidar operations submode (value - submode): 1 - safe 2 - warm-up 3 - standby 4 - normal 5 - BITS profile #1, no background 6 - BITS profile #2, no background 7 - BITS profile #3, no background 8 - BITS profile #4, no background 9 - BITS profile #1, with background 10 - BITS profile #2, with background 11 - BITS profile #3, with background 12 - BITS profile #4, with background 13 - no baseline removal 14 - baseline measurement 15 - polarization calibration 16 - extended background measurement 17 - boresight alignment 18 - manual boresight operation 19 - boresight search 20 - build on-board baseline profiles 21 - baseline corrected high gain channel 22 - baseline corrected low gain channel 23 - uncorrected high gain channel 24 - uncorrected low gain channel 25 - diagnostic"; } Lidar_Submode_dim_0 { String name "Record_Number"; } Lidar_Submode_dim_1 { String name "Sample"; } Surface_Elevation { String long_name "Surface_Elevation"; String units "km"; String format "Float_32"; Float32 valid_range -1.000000000, 9.000000000; Float32 _FillValue -9999.000000; String comment "Surface elevation at the laser footprint, above local mean sea level, obtained from the CloudSat science team digital elevation model (DEM)."; } Surface_Elevation_dim_0 { String name "Record_Number"; } Surface_Elevation_dim_1 { String name "Sample"; } GMAO_Surface_Elevation { String long_name "GMAO_Surface_Elevation"; String units "km"; String format "Float_32"; Float32 valid_range -1.000000000, 9.000000000; Float32 _FillValue -9999.000000; String comment "Surface elevation at the laser footprint, above local mean sea level, obtained from ancillary GMAO data. This is at a lower resolution as compared with Surface_Elevation."; } GMAO_Surface_Elevation_dim_0 { String name "Record_Number"; } GMAO_Surface_Elevation_dim_1 { String name "Sample"; } Surface_Saturation_Flag_532Par { String long_name "Surface_Saturation_Flag_532Par"; String format "UInt_8"; String units "NoUnits"; Byte valid_range 0, 2; String comment "Reports the likelihood that the surface signal in the 532 nm parallel channel is saturated (value - flag): 0 - not saturated 1 - possibly saturated 2 - certainly saturated"; } Surface_Saturation_Flag_532Par_dim_0 { String name "Record_Number"; } Surface_Saturation_Flag_532Par_dim_1 { String name "Sample"; } Surface_Saturation_Index_532Par { String long_name "Surface_Saturation_Index_532Par"; String format "Int_16"; String units "NoUnits"; Int16 valid_range -1, 582; Int16 _FillValue -9999; String comment "Reports the zero-based altitude index of the lowest range bin where the surface saturation flag is either \"possibly saturated\" or \"certainly saturated\" for the 532 nm parallel channel. For profiles classified as \"not saturated\", a value of -1 is reported."; } Surface_Saturation_Index_532Par_dim_0 { String name "Record_Number"; } Surface_Saturation_Index_532Par_dim_1 { String name "Sample"; } Negative_Signal_Anomaly_Index_532Par { String long_name "Negative_Signal_Anomaly_Index_532Par"; String format "Int_16"; String units "NoUnits"; Int16 valid_range -1, 582; Int16 _FillValue -9999; String comment "Reports the zero-based altitude index of the lowest range bin where the negative signal anomaly is detected in the 532 nm parallel channel. For profiles where the negative signal anomaly is not detected, as value of -1 is reported."; } Negative_Signal_Anomaly_Index_532Par_dim_0 { String name "Record_Number"; } Negative_Signal_Anomaly_Index_532Par_dim_1 { String name "Sample"; } Surface_Saturation_Flag_532Perp { String long_name "Surface_Saturation_Flag_532Perp"; String format "UInt_8"; String units "NoUnits"; Byte valid_range 0, 2; String comment "Reports the likelihood that the surface signal in the 532 nm perpendicular channel is saturated (value - flag): 0 - not saturated 1 - possibly saturated 2 - certainly saturated"; } Surface_Saturation_Flag_532Perp_dim_0 { String name "Record_Number"; } Surface_Saturation_Flag_532Perp_dim_1 { String name "Sample"; } Surface_Saturation_Index_532Perp { String long_name "Surface_Saturation_Index_532Perp"; String format "Int_16"; String units "NoUnits"; Int16 valid_range -1, 582; Int16 _FillValue -9999; String comment "Reports the zero-based altitude index of the lowest range bin where the surface saturation flag is either \"possibly saturated\" or \"certainly saturated\" for the 532 nm perpendicular channel. For profiles classified as \"not saturated\", a value of -1 is reported."; } Surface_Saturation_Index_532Perp_dim_0 { String name "Record_Number"; } Surface_Saturation_Index_532Perp_dim_1 { String name "Sample"; } Negative_Signal_Anomaly_Index_532Perp { String long_name "Negative_Signal_Anomaly_Index_532Perp"; String format "Int_16"; String units "NoUnits"; Int16 valid_range -1, 582; Int16 _FillValue -9999; String comment "Reports the zero-based altitude index of the lowest range bin where the negative signal anomaly is detected in the 532 nm perpendicular channel. For profiles where the negative signal anomaly is not detected, as value of -1 is reported."; } Negative_Signal_Anomaly_Index_532Perp_dim_0 { String name "Record_Number"; } Negative_Signal_Anomaly_Index_532Perp_dim_1 { String name "Sample"; } Surface_Saturation_Flag_1064 { String long_name "Surface_Saturation_Flag_1064"; String format "UInt_8"; String units "NoUnits"; Byte valid_range 0, 2; String comment "Reports the likelihood that the surface signal in the 1064 nm channel is saturated (value - flag): 0 - not saturated 1 - possibly saturated 2 - certainly saturated"; } Surface_Saturation_Flag_1064_dim_0 { String name "Record_Number"; } Surface_Saturation_Flag_1064_dim_1 { String name "Sample"; } Surface_Saturation_Index_1064 { String long_name "Surface_Saturation_Index_1064"; String format "Int_16"; String units "NoUnits"; Int16 valid_range -1, 582; Int16 _FillValue -9999; String comment "Reports the zero-based altitude index of the lowest range bin where the surface saturation flag is either \"possibly saturated\" or \"certainly saturated\" for the 1064 nm channel. For profiles classified as \"not saturated\", a value of -1 is reported."; } Surface_Saturation_Index_1064_dim_0 { String name "Record_Number"; } Surface_Saturation_Index_1064_dim_1 { String name "Sample"; } Negative_Signal_Anomaly_Index_1064 { String long_name "Negative_Signal_Anomaly_Index_1064"; String format "Int_16"; String units "NoUnits"; Int16 valid_range -1, 582; Int16 _FillValue -9999; String comment "Reports the zero-based altitude index of the lowest range bin where the negative signal anomaly is detected in the 1064 nm channel. For profiles where the negative signal anomaly is not detected, as value of -1 is reported."; } Negative_Signal_Anomaly_Index_1064_dim_0 { String name "Record_Number"; } Negative_Signal_Anomaly_Index_1064_dim_1 { String name "Sample"; } Laser_Energy_532 { String long_name "Laser_Energy_532"; String units "J"; String format "Float_32"; String comment "The laser energy at 532 nm measured by the laser energy monitor for each shot."; String typical_range "0.003...0.135"; } Laser_Energy_532_dim_0 { String name "Record_Number"; } Laser_Energy_532_dim_1 { String name "Sample"; } Perpendicular_Amplifier_Gain_532 { String long_name "Perpendicular_Amplifier_Gain_532"; String units "V/V"; String format "Float_32"; Float32 _FillValue -9999.000000; String comment "Gain of the variable gain amplifier for the 532 nm perpendicular channel."; String typical_range "26.0...178.0"; } Perpendicular_Amplifier_Gain_532_dim_0 { String name "Record_Number"; } Perpendicular_Amplifier_Gain_532_dim_1 { String name "Sample"; } Parallel_Amplifier_Gain_532 { String long_name "Parallel_Amplifier_Gain_532"; String units "V/V"; String format "Float_32"; Float32 _FillValue -9999.000000; String comment "Gain of the variable gain amplifier for the 532 nm parallel channel."; String typical_range "26.0...178.0"; } Parallel_Amplifier_Gain_532_dim_0 { String name "Record_Number"; } Parallel_Amplifier_Gain_532_dim_1 { String name "Sample"; } Perpendicular_Background_Monitor_532 { String long_name "Perpendicular_Background_Monitor_532"; String units "count"; String format "Float_32"; String comment "Amplitude of the background signal measured using the 532 nm perpendicular channel background monitor and rescaled to science digitizer units."; String typical_range "120.0...6000.0"; } Perpendicular_Background_Monitor_532_dim_0 { String name "Record_Number"; } Perpendicular_Background_Monitor_532_dim_1 { String name "Sample"; } Parallel_Background_Monitor_532 { String long_name "Parallel_Background_Monitor_532"; String units "count"; String format "Float_32"; String comment "Amplitude of the background signal measured using the 532 nm parallel channel background monitor and rescaled to science digitizer units."; String typical_range "6.0...6000.0"; } Parallel_Background_Monitor_532_dim_0 { String name "Record_Number"; } Parallel_Background_Monitor_532_dim_1 { String name "Sample"; } Depolarization_Gain_Ratio_532 { String long_name "Depolarization_Gain_Ratio_532"; String format "Float_32"; String units "NoUnits"; Float32 _FillValue -9999.000000; String comment "Ratio of the opto-electric gains between the 532 nm perpendicular and 532 nm parallel channels, i.e. the polarization gain ratio (PGR). The 532 nm nighttime PGR is calculated from routine PGR calibration operations, in which a pseudo-depolarizer is inserted into the optical path to generate equal backscatter intensities in both the 532 nm channels. The 532 nm daytime PGR is calculated based on the Perpendicular and Parallel RMS Baseline measurements above optically thick ice clouds."; String typical_range "0.0...2.5"; } Depolarization_Gain_Ratio_532_dim_0 { String name "Record_Number"; } Depolarization_Gain_Ratio_532_dim_1 { String name "Sample"; } Depolarization_Gain_Ratio_Uncertainty_532 { String long_name "Depolarization_Gain_Ratio_Uncertainty_532"; String format "Float_32"; String units "NoUnits"; Float32 _FillValue -9999.000000; String comment "Uncertainty in the 532 nm depolarization gain ratio (PGR) due to random noise computed based on the 532 nm parallel and perpendicular noise scale factors. Systematic errors are not included but are estimated to be small."; String typical_range "0.0...0.01"; } Depolarization_Gain_Ratio_Uncertainty_532_dim_0 { String name "Record_Number"; } Depolarization_Gain_Ratio_Uncertainty_532_dim_1 { String name "Sample"; } Calibration_Constant_532 { String long_name "Calibration_Constant_532"; String units "(km^3 * sr * count)/J"; String format "Float_32"; String comment "Calibration constant at 532 nm reported for each single shot profile using a molecular normalization technique. Separate techniques are applied for day and night measurements."; String typical_range "3.0E10...8.0E10"; } Calibration_Constant_532_dim_0 { String name "Record_Number"; } Calibration_Constant_532_dim_1 { String name "Sample"; } Calibration_Constant_Uncertainty_532 { String long_name "Calibration_Constant_Uncertainty_532"; String units "(km^3 * sr * count)/J"; String format "Float_32"; String comment "Estimated calibration uncertainty due to random noise in the 532 nm calibration constant, computed and reported for each single shot profile. Random uncertainties for calibration constants subsequently derived using a multi-orbit sliding window averaging are reduced from the single, individual sample estimate by the square root of the number of samples included in the average."; String typical_range "2.0E8...1.6E9"; } Calibration_Constant_Uncertainty_532_dim_0 { String name "Record_Number"; } Calibration_Constant_Uncertainty_532_dim_1 { String name "Sample"; } Total_Attenuated_Backscatter_532 { String long_name "Total_Attenuated_Backscatter_532"; String units "1/(km * sr)"; String format "Float_32"; Float32 _FillValue -9999.000000; String comment "Total attenuated backscatter coefficients at 532 nm, equal to the sum of the parallel and perpendicular channel 532 nm attenuated backscatter coefficients. Attenuated backscatter coefficients are derived from the calibrated, range-corrected, gain and laser energy normalized, background and baseline subtracted lidar return signal."; String typical_range "-0.1...3.3"; } Total_Attenuated_Backscatter_532_dim_0 { String name "Record_Number"; } Total_Attenuated_Backscatter_532_dim_1 { String name "Lidar_Data_Altitudes"; } Perpendicular_Attenuated_Backscatter_532 { String long_name "Perpendicular_Attenuated_Backscatter_532"; String units "1/(km * sr)"; String format "Float_32"; Float32 _FillValue -9999.000000; String comment "Perpendicular channel component of the 532 nm total attenuated backscatter coefficients. Profiles of the parallel channel component of the 532 nm total attenuated backscatter coefficients can be obtained by subtraction of the perpendicular from the total."; String typical_range "-0.08...1.7"; } Perpendicular_Attenuated_Backscatter_532_dim_0 { String name "Record_Number"; } Perpendicular_Attenuated_Backscatter_532_dim_1 { String name "Lidar_Data_Altitudes"; } Perpendicular_RMS_Baseline_532 { String long_name "Perpendicular_RMS_Baseline_532"; String units "count"; String format "Float_32"; String comment "Root mean square (RMS) noise, in science digitizer counts, of the high-altitude baseline signal measured for each laser pulse over 1000 15 m samples acquired in the 65-80 km altitude range in the 532 nm perpendicular channel."; String typical_range "0.0...3200.0"; } Perpendicular_RMS_Baseline_532_dim_0 { String name "Record_Number"; } Perpendicular_RMS_Baseline_532_dim_1 { String name "Sample"; } Parallel_RMS_Baseline_532 { String long_name "Parallel_RMS_Baseline_532"; String units "count"; String format "Float_32"; String comment "Root mean square (RMS) noise, in science digitizer counts, of the high-altitude baseline signal measured for each laser pulse over 1000 15 m samples acquired in the 65-80 km altitude range in the 532 nm parallel channel."; String typical_range "0.0...3200.0"; } Parallel_RMS_Baseline_532_dim_0 { String name "Record_Number"; } Parallel_RMS_Baseline_532_dim_1 { String name "Sample"; } Laser_Energy_1064 { String long_name "Laser_Energy_1064"; String units "J"; String format "Float_32"; String comment "The laser energy at 1064 nm measured by the laser energy monitor for each shot."; String typical_range "0.038...0.12"; } Laser_Energy_1064_dim_0 { String name "Record_Number"; } Laser_Energy_1064_dim_1 { String name "Sample"; } Amplifier_Gain_1064 { String long_name "Amplifier_Gain_1064"; String units "V/V"; String format "Float_32"; Float32 _FillValue -9999.000000; String comment "Gain of the variable gain amplifier for the 1064 nm channel."; String typical_range "102.0...195.0"; } Amplifier_Gain_1064_dim_0 { String name "Record_Number"; } Amplifier_Gain_1064_dim_1 { String name "Sample"; } Calibration_Constant_1064 { String long_name "Calibration_Constant_1064"; String units "(km^3 * sr * count)/J"; String format "Float_32"; String comment "Calibration constant at 1064 nm reported for each single shot profile. CALIOP's 1064 nm channel is calibrated relative to the 532 nm channel using the backscatter from a carefully selected subset of cirrus cloud measurements. Unlike the 532 nm calibrations, at 1064 nm the same procedure is used for both daytime and nighttime calibrations."; String typical_range "4.0E9...1.0E10"; } Calibration_Constant_1064_dim_0 { String name "Record_Number"; } Calibration_Constant_1064_dim_1 { String name "Sample"; } Calibration_Constant_Uncertainty_1064 { String long_name "Calibration_Constant_Uncertainty_1064"; String units "(km^3 * sr * count)/J"; String format "Float_32"; String comment "Estimated uncertainty in the 1064 nm calibration constant, computed and reported for each single shot profile. Unlike the 532 nm calibration constant uncertainties, the uncertainties reported for the 1064 nm calibration constants include contributions from both random errors, which can be reduced by averaging, and systematic biases, which cannot be reduced by averaging."; String typical_range "5.0E7...4.0E9"; } Calibration_Constant_Uncertainty_1064_dim_0 { String name "Record_Number"; } Calibration_Constant_Uncertainty_1064_dim_1 { String name "Sample"; } Attenuated_Backscatter_1064 { String long_name "Attenuated_Backscatter_1064"; String units "1/(km * sr)"; String format "Float_32"; Float32 _FillValue -9999.000000; String comment "Attenuated backscatter at 1064 nm, derived from the calibrated, range-corrected, gain and laser energy normalized, background and baseline subtracted lidar return signal. The first 33 bins of each profile contain fill values (-9999), because no 1064 nm data is downlinked from the 30.1 - 40 km altitude range."; String typical_range "-0.04...2.5"; } Attenuated_Backscatter_1064_dim_0 { String name "Record_Number"; } Attenuated_Backscatter_1064_dim_1 { String name "Lidar_Data_Altitudes"; } RMS_Baseline_1064 { String long_name "RMS_Baseline_1064"; String units "count"; String format "Float_32"; String comment "Root mean square (RMS) noise, in science digitizer counts, of the high-altitude baseline signal measured for each laser pulse over 1000 15 m samples acquired in the 65-80 km altitude range in the 1064 nm channel."; String typical_range "200.0...1800.0"; } RMS_Baseline_1064_dim_0 { String name "Record_Number"; } RMS_Baseline_1064_dim_1 { String name "Sample"; } Molecular_Number_Density { String long_name "Molecular_Number_Density"; String units "molecules/m^3"; String format "Float_32"; Float32 valid_range 4.799999984e+22, 4.800000066e+25; String comment "Molecular number density, for each profile, reported at the Met_Data_Altitudes resolution. Calculated from MERRA-2 data."; } Molecular_Number_Density_dim_0 { String name "Record_Number"; } Molecular_Number_Density_dim_1 { String name "Met_Data_Altitudes"; } Ozone_Number_Density { String long_name "Ozone_Number_Density"; String units "molecules/m^3"; String format "Float_32"; Float32 valid_range 9.000000031e+16, 9.999999981e+18; String comment "Ozone number density, for each profile, reported at the Met_Data_Altitudes resolution. Calculated from MERRA-2 data."; } Ozone_Number_Density_dim_0 { String name "Record_Number"; } Ozone_Number_Density_dim_1 { String name "Met_Data_Altitudes"; } Temperature { String long_name "Temperature"; String units "degC"; String format "Float_32"; Float32 valid_range -120.0000000, 60.00000000; String comment "Temperature, for each profile, reported at the Met_Data_Altitudes resolution. Provided by MERRA-2."; } Temperature_dim_0 { String name "Record_Number"; } Temperature_dim_1 { String name "Met_Data_Altitudes"; } Pressure { String long_name "Pressure"; String units "hPa"; String format "Float_32"; Float32 valid_range 1.000000000, 1086.000000; String comment "Pressure, for each profile, reported at the Met_Data_Altitudes resolution. Provided by MERRA-2."; } Pressure_dim_0 { String name "Record_Number"; } Pressure_dim_1 { String name "Met_Data_Altitudes"; } Relative_Humidity { String long_name "Relative_Humidity"; String format "Float_32"; String units "%"; Float32 valid_range 0.000000000, 150.0000000; String comment "Relative humidity, for each profile, reported at the Met_Data_Altitudes resolution. Provided by MERRA-2."; } Relative_Humidity_dim_0 { String name "Record_Number"; } Relative_Humidity_dim_1 { String name "Met_Data_Altitudes"; } Surface_Wind_Speeds_02m { String long_name "Surface_Wind_Speeds_02m"; String units "m/s"; String format "Float_32"; Float32 valid_range -80.00000000, 80.00000000; String comment "Surface wind speeds measured 2 m above the Earth's surface. First Dimension = eastward, zonal, u; Second Dimension = northward, meridional, v. Provided by MERRA-2."; } Surface_Wind_Speeds_02m_dim_0 { String name "Record_Number"; } Surface_Wind_Speeds_02m_dim_1 { String name "Directions"; } Surface_Wind_Speeds_10m { String long_name "Surface_Wind_Speeds_10m"; String units "m/s"; String format "Float_32"; Float32 valid_range -80.00000000, 80.00000000; String comment "Surface wind speeds measured 10 m above the Earth's surface. First Dimension = eastward, zonal, u; Second Dimension = northward, meridional, v. Provided by MERRA-2."; } Surface_Wind_Speeds_10m_dim_0 { String name "Record_Number"; } Surface_Wind_Speeds_10m_dim_1 { String name "Directions"; } Tropopause_Height { String long_name "Tropopause_Height"; String units "km"; String format "Float_32"; Float32 valid_range 4.000000000, 22.00000000; String comment "Tropopause height. Provided by MERRA-2."; } Tropopause_Height_dim_0 { String name "Record_Number"; } Tropopause_Height_dim_1 { String name "Sample"; } Tropopause_Temperature { String long_name "Tropopause_Temperature"; String units "degC"; String format "Float_32"; Float32 valid_range -95.00000000, -20.00000000; String comment "Tropopause temperature. Provided by MERRA-2."; } Tropopause_Temperature_dim_0 { String name "Record_Number"; } Tropopause_Temperature_dim_1 { String name "Sample"; } Noise_Scale_Factor_532_Perpendicular { String long_name "Noise_Scale_Factor_532_Perpendicular"; String units "count^(1/2)"; String format "Float_32"; String comment "Noise scale factor (NSF) for each shot of the 532 nm perpendicular channel, computed from daytime measurement of the Perpendicular RMS Baseline 532 and the Perpendicular Background Monitor 532."; String typical_range "3.4...8.0"; } Noise_Scale_Factor_532_Perpendicular_dim_0 { String name "Record_Number"; } Noise_Scale_Factor_532_Perpendicular_dim_1 { String name "Sample"; } Noise_Scale_Factor_532_Parallel { String long_name "Noise_Scale_Factor_532_Parallel"; String units "count^(1/2)"; String format "Float_32"; String comment "Noise scale factor (NSF) for each shot of the 532 nm parallel channel, computed from daytime measurement of the Parallel RMS Baseline 532 and the Parallel Background Monitor 532."; String typical_range "4.0...8.0"; } Noise_Scale_Factor_532_Parallel_dim_0 { String name "Record_Number"; } Noise_Scale_Factor_532_Parallel_dim_1 { String name "Sample"; } Noise_Scale_Factor_1064 { String long_name "Noise_Scale_Factor_1064"; String units "count^(1/2)"; String format "Float_32"; String comment "Noise scale factor (NSF) for the 1064 nm channel. CALIOP does not measure the background signal level at 1064 nm, because the APD detector dark noise is dominant during both nighttime and daytime measurement. For this reason, the procedure to estimate the NSF for the 532 nm channels cannot be used for the 1064 nm channel. The 1064 nm NSF is therefore set to 0, which causes negligible error because, as above, the APD detector dark noise is the dominant error source."; String typical_range "0.0"; } Noise_Scale_Factor_1064_dim_0 { String name "Record_Number"; } Noise_Scale_Factor_1064_dim_1 { String name "Sample"; } Perpendicular_Column_Reflectance_532 { String long_name "Perpendicular_Column_Reflectance_532"; String format "Float_32"; String units "NoUnits"; Float32 _FillValue -9999.000000; String comment "Bi-directional column reflectance derived from the root-mean-square variation of the 532 nm perpendicular channel baseline measurements."; String typical_range "0.0...1.0"; } Perpendicular_Column_Reflectance_532_dim_0 { String name "Record_Number"; } Perpendicular_Column_Reflectance_532_dim_1 { String name "Sample"; } Perpendicular_Column_Reflectance_Uncertainty_532 { String long_name "Perpendicular_Column_Reflectance_Uncertainty_532"; String format "Float_32"; String units "NoUnits"; Float32 _FillValue -9999.000000; String comment "Column reflectance uncertainty for the 532 nm perpendicular channel."; String typical_range "0.0...0.45"; } Perpendicular_Column_Reflectance_Uncertainty_532_dim_0 { String name "Record_Number"; } Perpendicular_Column_Reflectance_Uncertainty_532_dim_1 { String name "Sample"; } Parallel_Column_Reflectance_532 { String long_name "Parallel_Column_Reflectance_532"; String format "Float_32"; String units "NoUnits"; Float32 _FillValue -9999.000000; String comment "Bi-directional column reflectance derived from the root-mean-square variation of the 532 nm parallel channel baseline measurements."; String typical_range "0.0...1.0"; } Parallel_Column_Reflectance_532_dim_0 { String name "Record_Number"; } Parallel_Column_Reflectance_532_dim_1 { String name "Sample"; } Parallel_Column_Reflectance_Uncertainty_532 { String long_name "Parallel_Column_Reflectance_Uncertainty_532"; String format "Float_32"; String units "NoUnits"; Float32 _FillValue -9999.000000; String comment "Column reflectance uncertainty for the 532 nm parallel channel."; String typical_range "0.0...0.45"; } Parallel_Column_Reflectance_Uncertainty_532_dim_0 { String name "Record_Number"; } Parallel_Column_Reflectance_Uncertainty_532_dim_1 { String name "Sample"; } Reflectance_Calibration_Coefficient_532 { String long_name "Reflectance_Calibration_Coefficient_532"; String format "Float_32"; String units "(W * 1/m^2 * 1/sr) / counts"; Float32 _FillValue -9999.000000; String comment "Calibration coefficient that converts the sum of the squares of the RMS baseline measurements (units = CALIOP science digitizer counts) to radiances (units = W * 1/m^2 * 1/sr)."; String typical_range "4.9e-05...7.5e-05"; } Reflectance_Calibration_Coefficient_532_dim_0 { String name "Record_Number"; } Reflectance_Calibration_Coefficient_532_dim_1 { String name "Sample"; } Reflectance_Calibration_Coefficient_Uncertainty_532 { String long_name "Reflectance_Calibration_Coefficient_Uncertainty_532"; String format "Float_32"; String units "(W * 1/m^2 * 1/sr) / counts"; Float32 _FillValue -9999.000000; String comment "Absolute uncertainty in the calibration coefficients that convert the sum of the squares of the RMS baseline measurements to radiances."; String typical_range "2.2e-06...3.8e-06"; } Reflectance_Calibration_Coefficient_Uncertainty_532_dim_0 { String name "Record_Number"; } Reflectance_Calibration_Coefficient_Uncertainty_532_dim_1 { String name "Sample"; } QC_Flag { String long_name "QC_Flag"; String format "UInt_32"; String units "NoUnits"; UInt32 valid_range 0, 16777215; String comment "Quality Control Flag #1 (bit - interpretation): bit 1 - 532 nm parallel channel missing bit 2 - 532 nm perpendicular channel missing bit 3 - 1064 nm channel missing bit 4 - Not geolocated bit 5 - Single shot 532 laser energy below calibration threshold (<0.01 J; near zero energy) bit 6 - Single shot 1064 laser energy below calibration threshold (< 0.0408 J; near zero energy) bit 7 - Historical value used for the depolarization gain ratio bit 8 - Historical calibration constant used, 532 nm parallel channel bit 9 - Historical calibration constant used, 532 nm perpendicular channel bit 10 - Historical calibration constant used, 1064 nm channel bit 11 - Averaged calibration constant used, 532 nm parallel channel bit 12 - Averaged calibration constant used, 532 nm perpendicular channel bit 13 - Single shot 532 laser energy below data quality threshold (< 0.05 J; low energy) bit 14 - Single shot 1064 laser energy below data quality threshold (< 0.05J; low energy) bit 15 - Near zero 532 nm laser energy profile included in region 3 average bit 16 - Near zero 1064 nm laser energy profile included in region 3 average bit 17 - Near zero 532 nm laser energy profile included in region 4 average bit 18 - Near zero 1064 nm laser energy profile included in region 4 average bit 19 - Near zero 532 nm laser energy profile included in region 5 average bit 20 - Low 532 nm laser energy profile included in region 3 average bit 21 - Low 1064 nm laser energy profile included in region 3 average bit 22 - Low 532 nm laser energy profile included in region 4 average bit 23 - Low 532 nm laser energy profile included in region 4 average bit 24 - Low 532 nm laser energy profile included in region 5 average bits 25...32 - Spare"; } QC_Flag_dim_0 { String name "Record_Number"; } QC_Flag_dim_1 { String name "Sample"; } QC_Flag_2 { String long_name "QC_Flag_2"; String format "UInt_32"; String units "NoUnits"; UInt32 valid_range 0, 134217727; String comment "Quality Control Flag #2 (bit - interpretation): bit 1 - Reserve bit 2 - Excessive digitizer underflows, 532 nm parallel channel in region 6 bit 3 - Excessive digitizer underflows, 532 nm perpendicular parallel channel, region 6 bit 4 - Excessive digitizer underflows, 1064 nm channel, region 6 bit 5 - Excessive digitizer overflows, 532 nm parallel channel, region 6 bit 6 - Excessive digitizer overflows, 532 nm perpendicular parallel channel, region 6 bit 7 - Excessive digitizer overflows, 1064 nm channel, region 6 bit 8 - Excessive digitizer overflows, 532 nm parallel channel, region 2 bit 9 - Excessive digitizer overflows, 532 nm perpendicular parallel channel, region 2 bit 10 - Excessive digitizer overflows, 1064 nm channel, region 2 bit 11 - LRE Flags in SAD packet indicate bad data, 532 nm parallel channel bit 12 - LRE Flags in SAD packet indicate bad data, 532 nm perpendicular channel bit 13 - LRE Flags in SAD packet indicate bad data, 1064 nm channel bit 14 - Quality Flags in SAD packet indicate bad data, 532 nm parallel channel bit 15 - Quality Flags in SAD packet indicate bad data, 532 nm perpendicular channel bit 16 - Quality Flags in SAD packet indicate bad data, 1064 nm channel bit 17 - Suspicious offset calculation, 532 nm parallel channel bit 18 - Suspicious offset calculation, 532 nm perpendicular channel bit 19 - Suspicious offset calculation, 1064 nm channel bit 20 - Suspicious mean signal value, 532 nm parallel channel (any/all regions) bit 21 - Suspicious mean signal value, 532 nm perpendicular channel (any/all regions) bit 22 - Suspicious mean signal value, 1064 nm channel (any/all regions) bit 23 - RMS noise out of range, 532 nm parallel channel bit 24 - RMS noise out of range, 532 nm perpendicular parallel channel bit 25 - RMS noise out of range, 1064 nm channel bit 26 - Near surface meteorological parameters were remapped to DEM surface altitude bit 27 - 1064 nm calibration coefficients suspect due to low temperatures associated with power up bits 28...32 Spare"; } QC_Flag_2_dim_0 { String name "Record_Number"; } QC_Flag_2_dim_1 { String name "Sample"; } Latitude { String long_name "Latitude"; String units "degrees_north"; String format "Float_32"; Float32 valid_range -90.00000000, 90.00000000; Float32 _FillValue -9999.000000; String comment "Geodetic latitude of the laser footprint on the Earth's surface."; } Latitude_dim_0 { String name "Record_Number"; } Latitude_dim_1 { String name "Sample"; } Longitude { String long_name "Longitude"; String units "degrees_east"; String format "Float_32"; Float32 valid_range -180.0000000, 180.0000000; Float32 _FillValue -9999.000000; String comment "Longitude of the laser footprint on the Earth's surface."; } Longitude_dim_0 { String name "Record_Number"; } Longitude_dim_1 { String name "Sample"; } Off_Nadir_Angle { String long_name "Off_Nadir_Angle"; String units "degrees"; String format "Float_32"; Float32 valid_range 0.000000000, 10.00000000; Float32 _FillValue -9999.000000; String comment "Angle of the lidar viewing vector; 0.3 degrees off-nadir from launch/first-light to 3.0 degrees after November 28, 2007."; } Off_Nadir_Angle_dim_0 { String name "Record_Number"; } Off_Nadir_Angle_dim_1 { String name "Sample"; } Viewing_Zenith_Angle { String long_name "Viewing_Zenith_Angle"; String units "degrees"; String format "Float_32"; Float32 valid_range 0.000000000, 90.00000000; Float32 _FillValue -9999.000000; String comment "Angle between the lidar viewing vector and the zenith at the lidar footprint on the surface."; } Viewing_Zenith_Angle_dim_0 { String name "Record_Number"; } Viewing_Zenith_Angle_dim_1 { String name "Sample"; } Viewing_Azimuth_Angle { String long_name "Viewing_Azimuth_Angle"; String units "degrees"; String format "Float_32"; Float32 valid_range -180.0000000, 180.0000000; Float32 _FillValue -9999.000000; String comment "Azimuth angle from north of the lidar viewing vector."; } Viewing_Azimuth_Angle_dim_0 { String name "Record_Number"; } Viewing_Azimuth_Angle_dim_1 { String name "Sample"; } Solar_Zenith_Angle { String long_name "Solar_Zenith_Angle"; String units "degrees"; String format "Float_32"; Float32 valid_range 0.000000000, 180.0000000; Float32 _FillValue -9999.000000; String comment "Angle between the zenith at the lidar footprint on the surface and the line of sight to the sun."; } Solar_Zenith_Angle_dim_0 { String name "Record_Number"; } Solar_Zenith_Angle_dim_1 { String name "Sample"; } Solar_Azimuth_Angle { String long_name "Solar_Azimuth_Angle"; String units "degrees"; String format "Float_32"; Float32 valid_range -180.0000000, 180.0000000; Float32 _FillValue -9999.000000; String comment "Azimuth angle from north of the line of sight to the sun."; } Solar_Azimuth_Angle_dim_0 { String name "Record_Number"; } Solar_Azimuth_Angle_dim_1 { String name "Sample"; } Scattering_Angle { String long_name "Scattering_Angle"; String units "degrees"; String format "Float_32"; Float32 valid_range 0.000000000, 180.0000000; Float32 _FillValue -9999.000000; String comment "Angle between the lidar viewing angle and the line of sight of the sun."; } Scattering_Angle_dim_0 { String name "Record_Number"; } Scattering_Angle_dim_1 { String name "Sample"; } Surface_Altitude_Shift { String long_name "Surface_Altitude_Shift"; String units "km"; String format "Float_32"; Float32 valid_range -0.1500000060, 0.1500000060; String comment "Altitude difference between the profile specific 30 meter altitude array and the fixed 30 meter altitude array at the array element that includes mean sea level.\240Profile specific altitude arrays are computed as a function of the actual spacecraft off-nadir angle, which varies slightly from the commanded spacecraft off-nadir angle. The difference is calculated as: Surface_Altitude_Shift = altitude (profile specific 30 meter mean sea level bin) - altitude (fixed 30 meter mean sea level bin); positive = shift up and negative = shift down."; } Surface_Altitude_Shift_dim_0 { String name "Record_Number"; } Surface_Altitude_Shift_dim_1 { String name "Sample"; } Number_Bins_Shift { String long_name "Number_Bins_Shift"; String units "NoUnits"; String format "Int_32"; Int32 valid_range -8, 8; String comment "Number of 30 meter bins shifted by the altitude registration algorithm to match the range bin at mean sea level in the measured profile to the range bin at mean sea level in the fixed altitude grid; positive = shift up and negative = shift down."; } Number_Bins_Shift_dim_0 { String name "Record_Number"; } Number_Bins_Shift_dim_1 { String name "Sample"; } Spacecraft_Altitude { String long_name "Spacecraft_Altitude"; String units "km"; String format "Float_32"; Float32 valid_range 700.0000000, 740.0000000; Float32 _FillValue -9999.000000; String comment "Altitude above mean sea level of the satellite."; } Spacecraft_Altitude_dim_0 { String name "Record_Number"; } Spacecraft_Altitude_dim_1 { String name "Sample"; } Spacecraft_Position { String long_name "Spacecraft_Position"; String units "km"; String format "Float_64"; Float64 valid_range -8000.0000000000000, 8000.0000000000000; Float64 _FillValue -9999.0000000000000; String comment "Position (ECR coordinates) of the satellite."; } Spacecraft_Position_dim_0 { String name "Record_Number"; } Spacecraft_Position_dim_1 { String name "Coordinates"; } Spacecraft_Velocity { String long_name "Spacecraft_Velocity"; String units "km/s"; String format "Float_64"; Float64 valid_range -10.000000000000000, 10.000000000000000; Float64 _FillValue -9999.0000000000000; String comment "Velocity (ECR coordinates) of the satellite."; } Spacecraft_Velocity_dim_0 { String name "Record_Number"; } Spacecraft_Velocity_dim_1 { String name "Coordinates"; } Spacecraft_Attitude { String long_name "Spacecraft_Attitude"; String units "degrees"; String format "Float_64"; Float64 valid_range -180.00000000000000, 180.00000000000000; Float64 _FillValue -9999.0000000000000; String comment "Attitude (roll, pitch, yaw) of the satellite."; } Spacecraft_Attitude_dim_0 { String name "Record_Number"; } Spacecraft_Attitude_dim_1 { String name "Coordinates"; } Spacecraft_Attitude_Rate { String long_name "Spacecraft_Attitude_Rate"; String units "degrees/s"; String format "Float_64"; Float64 valid_range -10.000000000000000, 10.000000000000000; Float64 _FillValue -9999.0000000000000; String comment "Change of attitude of the satellite."; } Spacecraft_Attitude_Rate_dim_0 { String name "Record_Number"; } Spacecraft_Attitude_Rate_dim_1 { String name "Coordinates"; } Subsatellite_Latitude { String long_name "Subsatellite_Latitude"; String units "degrees"; String format "Float_32"; Float32 valid_range -90.00000000, 90.00000000; Float32 _FillValue -9999.000000; String comment "Latitude of the geodetic subsolar point, which is the point on the surface where the geodetic zenith vector points toward the satellite."; } Subsatellite_Latitude_dim_0 { String name "Record_Number"; } Subsatellite_Latitude_dim_1 { String name "Sample"; } Subsatellite_Longitude { String long_name "Subsatellite_Longitude"; String units "degrees"; String format "Float_32"; Float32 valid_range -180.0000000, 180.0000000; Float32 _FillValue -9999.000000; String comment "Longitude of the geodetic subsolar point, which is the point on the surface where the geodetic zenith vector points toward the satellite."; } Subsatellite_Longitude_dim_0 { String name "Record_Number"; } Subsatellite_Longitude_dim_1 { String name "Sample"; } Earth_Sun_Distance { String long_name "Earth-Sun_Distance"; String units "AU"; String format "Float_64"; Float64 valid_range 0.97999999999999998, 1.0200000000000000; String comment "The distance from the Earth's surface to the Sun."; Float64 _FillValue -9999.000000; } Earth_Sun_Distance_dim_0 { String name "Record_Number"; } Earth_Sun_Distance_dim_1 { String name "Sample"; } Subsolar_Latitude { String long_name "Subsolar_Latitude"; String units "degrees"; String format "Float_32"; Float32 valid_range -90.00000000, 90.00000000; Float32 _FillValue -9999.000000; String comment "Latitude of the geodetic subsolar point, which is the point on the surface where the geodetic zenith vector points toward the Sun."; } Subsolar_Latitude_dim_0 { String name "Record_Number"; } Subsolar_Latitude_dim_1 { String name "Sample"; } Subsolar_Longitude { String long_name "Subsolar_Longitude"; String units "degrees"; String format "Float_32"; Float32 valid_range -180.0000000, 180.0000000; Float32 _FillValue -9999.000000; String comment "Longitude of the geodetic subsolar point, which is the point on the surface where the geodetic zenith vector points toward the Sun."; } Subsolar_Longitude_dim_0 { String name "Record_Number"; } Subsolar_Longitude_dim_1 { String name "Sample"; } metadata { String Vdata_field_Product_ID "L1_LIDAR_Science"; String Vdata_field_Date_Time_at_Granule_Start "2007-01-01T00:22:49.100000Z"; String Vdata_field_Date_Time_at_Granule_End "2007-01-01T01:09:10.588400Z"; String Vdata_field_Date_Time_of_Production "2024-10-31T16:45:52Z"; Int32 Vdata_field_Number_of_Good_Profiles 56085; Int32 Vdata_field_Number_of_Bad_Profiles 0; Float32 Vdata_field_Initial_Subsatellite_Latitude 72.08027649; Float32 Vdata_field_Initial_Subsatellite_Longitude 173.9295349; Float32 Vdata_field_Final_Subsatellite_Latitude -61.79505157; Float32 Vdata_field_Final_Subsatellite_Longitude -6.821657658; UInt32 Vdata_field_Orbit_Number_at_Granule_Start 3607; UInt32 Vdata_field_Orbit_Number_at_Granule_End 3607; Float64 Vdata_field_Orbit_Number_Change_Time -999999.99999998999; Int16 Vdata_field_Path_Number_at_Granule_Start 168; Int16 Vdata_field_Path_Number_at_Granule_End 184; Float64 Vdata_field_Path_Number_Change_Time 70101.018907289355; String Vdata_field_Ephemeris_Files_Used "CAL_Eph_TK-Prov-V1-01.2006-12-31T05-00-00Z.eph, CAL_Eph_TK-Prov-V1-01.2007-01-01T05-00-00Z.eph"; String Vdata_field_Attitude_Files_Used "CAL_Att_TK-Prov-V1-01.2007-01-01T00-00-00Z.att, CAL_Att_TK-Prov-V1-01.2007-01-02T00-00-00Z.att"; String Vdata_field_GMAO_Files_Used "MERRA2_300.inst1_2d_asm_Nx.20070101.nc4, MERRA2_300.inst1_2d_asm_Nx.20070102.nc4, MERRA2_300.inst3_3d_asm_Nv.20070101.nc4, MERRA2_300.inst3_3d_asm_Nv.20070102.nc4"; String Vdata_field_Snow_Ice_Files_Used "CER_EICE_CERES_NSIDC-NESDIS_021022.20070101, CER_ESNOW_CERES_NSIDC-NESDIS_021022.20070101"; String Vdata_field_GEOS_Version "CLM"; Float32 Vdata_field_Percent_532_parallel_Bad 0.000000000; Float32 Vdata_field_Percent_532_perpendicular_Bad 0.000000000; Float32 Vdata_field_Percent_1064_Bad 0.000000000; Float32 Vdata_field_Percent_532_parallel_Missing 0.000000000; Float32 Vdata_field_Percent_532_perpendicular_Missing 0.000000000; Float32 Vdata_field_Percent_1064_Missing 0.000000000; Float32 Vdata_field_Cal_Region_Top_Altitude_532 39.20000076; Float32 Vdata_field_Cal_Region_Base_Altitude_532 35.90000153; Float32 Vdata_field_Lidar_Data_Altitudes 39.85510635, 39.55531693, 39.25553131, 38.95574188, 38.65595245, 38.35616684, 38.05637741, 37.75658798, 37.45679855, 37.15701294, 36.85722351, 36.55743408, 36.25764847, 35.95785904, 35.65806961, 35.35828018, 35.05849457, 34.75870514, 34.45891571, 34.15913010, 33.85934067, 33.55955124, 33.25976181, 32.95997620, 32.66018677, 32.36039734, 32.06061172, 31.76082230, 31.46103287, 31.16124535, 30.86145592, 30.56166840, 30.26187897, 30.02204895, 29.84217644, 29.66230392, 29.48242950, 29.30255699, 29.12268448, 28.94281006, 28.76293755, 28.58306503, 28.40319252, 28.22331810, 28.04344559, 27.86357307, 27.68370056, 27.50382614, 27.32395363, 27.14408112, 26.96420860, 26.78433418, 26.60446167, 26.42458916, 26.24471664, 26.06484222, 25.88496971, 25.70509720, 25.52522469, 25.34535027, 25.16547775, 24.98560524, 24.80573273, 24.62585831, 24.44598579, 24.26611328, 24.08623886, 23.90636635, 23.72649384, 23.54662132, 23.36674690, 23.18687439, 23.00700188, 22.82712936, 22.64725494, 22.46738243, 22.28750992, 22.10763741, 21.92776299, 21.74789047, 21.56801796, 21.38814545, 21.20827103, 21.02839851, 20.84852600, 20.66865349, 20.48877907, 20.30890656, 20.18899155, 20.12903404, 20.06907654, 20.00911903, 19.94915962, 19.88920212, 19.82924461, 19.76928711, 19.70932961, 19.64937210, 19.58941460, 19.52945709, 19.46949959, 19.40954208, 19.34958458, 19.28962708, 19.22966766, 19.16971016, 19.10975266, 19.04979515, 18.98983765, 18.92988014, 18.86992264, 18.80996513, 18.75000763, 18.69005013, 18.63009262, 18.57013321, 18.51017570, 18.45021820, 18.39026070, 18.33030319, 18.27034569, 18.21038818, 18.15043068, 18.09047318, 18.03051567, 17.97055817, 17.91060066, 17.85064125, 17.79068375, 17.73072624, 17.67076874, 17.61081123, 17.55085373, 17.49089622, 17.43093872, 17.37098122, 17.31102371, 17.25106621, 17.19110680, 17.13114929, 17.07119179, 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Vdata_field_CirrusBackscatterColorRatio 1.000000000; Float32 Vdata_field_CirrusBackscatterColorRatioUncertainty 0.2500000000; String Vdata_field_AutocorrelationCoefficientFile "Lidar_Autocorrelation_Coefficients_V4X.hdf"; } }