id | field name | definition |
0 | num_measurement_invalid |
binary int32 | size: 4 |
The number of measurements for which the number of corresponding valid pulses is below Meas_Cavity_Lock_Status_Thresh
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1 | num_reference_pulse_invalid |
binary int32 | size: 4 |
The number of reference pulses with invalid status
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2 | num_sat_not_on_target_measurements |
binary int32 | size: 4 |
Number of measurements with the satellite not no target status
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3 | num_corrupt_mie_measurements |
binary int32 | size: 4 |
Number of corrupt Mie measurements found to be flagged invalid or missing in the L1A product.
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4 | num_corrupt_rayleigh_measurements |
binary int32 | size: 4 |
Number of corrupt Rayleigh measurements found to be flagged invalid or missing in the L1A product.
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5 | num_corrupt_mie_reference_pulses |
binary int32 | size: 4 |
Number of corrupt Mie reference pulses found to be flagged invalid or missing in the L1A product.
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6 | num_corrupt_rayleigh_reference_pulses |
binary int32 | size: 4 |
Number of corrupt Rayleigh reference pulses found to be flagged invalid or missing in the L1A product.
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|
7 | avg_laser_frequency_offset |
binary double | size: 8 |
Average of commanded laser frequency offset
unit: "GHz"
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|
8 | avg_uv_energy |
binary double | size: 8 |
Average laser UV energy
unit: "mJ"
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|
9 | laser_frequency_offset_std_dev |
binary double | size: 8 |
Laser frequency offset standard deviation
unit: "GHz"
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10 | uv_energy_std_dev |
binary double | size: 8 |
Laser pulse UV energy standard deviation of N * (P-1) pulses, regardless of the UV_Energy_OK_Status
unit: "mJ"
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|
11 | mie_ref_pulse_signal_to_noise_ratio |
binary double | size: 8 |
Mie signal to noise ratio for coadded valid pulses of the observation
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12 | mie_ref_pulse_refined_signal_to_noise_ratio |
binary double | size: 8 |
Refined Mie signal to noise ratio for coadded valid pulses of the observation
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|
13 | rayleigh_ref_pulse_signal_to_noise_ratio_channel_a |
binary double | size: 8 |
Rayleigh signal to noise ratio of channel A for the coadded valid pulses of the observation
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|
14 | rayleigh_ref_pulse_signal_to_noise_ratio_channel_b |
binary double | size: 8 |
Rayleigh signal to noise ratio of channel B for the coadded valid pulses of the observation
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|
15 | enc_col_ref_pulse_channel_a |
binary double | size: 8 |
Col value of the energetic centroid of the mean reference pulse of the observation for channel A. Value set to 0 if parameter couldn’t be retrieved.
unit: "ACCD pixel index"
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|
16 | enc_col_ref_pulse_channel_b |
binary double | size: 8 |
Col value of the energetic centroid of the mean reference pulse of the observation for channel B. Value set to 0 if parameter couldn’t be retrieved.
unit: "ACCD pixel index"
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|
17 | enc_col_std_dev_ref_pulse_channel_a |
binary double | size: 8 |
Energetic centroid column standard deviation for the mean reference pulse of channel A. Value set to 0 if parameter couldn’t be retrieved.
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18 | enc_col_std_dev_ref_pulse_channel_b |
binary double | size: 8 |
Energetic centroid column standard deviation for the mean reference pulse of channel B. Value set to 0 if parameter couldn’t be retrieved.
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19 | num_mie_peak_invalid |
binary int32 | size: 4 |
Number of invalid Mie bin due to invalid peak fit of the measurement data or reference pulse data
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20 | polynomial_fit_data_used |
binary uint8 | size: 1 |
Flag indicating if the polynomial fit data of the response errors was used for the conversion of the response into a frequency
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21 | corrected_mie_reference_pulse_response |
binary double | size: 8 |
In case the Polynomial_Fit_Data_Used flag is set to 0, this field reports the corrected response of the accumulated Mie reference pulses. Otherwise parameter set to 0.0
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22 | corrected_rayleigh_reference_pulse_response |
binary double | size: 8 |
In case the Polynomial_Fit_Data_Used flag is set to 0, this field reports the corrected response of the accumulated Rayleigh reference pulses. Otherwise parameter set to 0.0
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23 | observation_alt_bin_pcd |
binary array[25] | size: 5050 |
binary record | size: 202 |
Level 1B Observation Alt Bin PCD
id | field name | definition |
0 | error_quantifier_mie |
binary double | size: 8 |
Error quantifier for Mie
unit: "m/s"
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|
1 | error_quantifier_rayleigh |
binary double | size: 8 |
Error quantifier for Rayleigh
unit: "m/s"
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|
2 | error_quantifier_rayleigh_channel_a |
binary double | size: 8 |
Error quantifier for Rayleigh channel A
unit: "AU"
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|
3 | error_quantifier_rayleigh_channel_b |
binary double | size: 8 |
Error quantifier for Rayleigh channel B
unit: "AU"
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|
4 | mie_wind_velocity_std_dev |
binary double | size: 8 |
Mie wind velocity standard deviation of the altitude bin
unit: "m/s"
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|
5 | rayleigh_wind_velocity_std_dev |
binary double | size: 8 |
Rayleigh wind velocity standard deviation of the altitude bin
unit: "m/s"
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|
6 | mie_useful_signal_std_dev |
binary double | size: 8 |
Mie useful signal tandard deviation of the altitude bin
unit: "AU"
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|
7 | rayleigh_useful_signal_channel_a_std_dev |
binary double | size: 8 |
Rayleigh channel A useful signal tandard deviation of the altitude bin
unit: "AU"
|
|
8 | rayleigh_useful_signal_channel_b_std_dev |
binary double | size: 8 |
Rayleigh channel B useful signal tandard deviation of the altitude bin
unit: "AU"
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|
9 | mie_core_characteristic |
|
10 | scattering_ratio_mie |
binary double | size: 8 |
Scattering ratio of the altitude bin. If the scattering ratio cannot be computed, the field is set to -1.0
unit: "AU"
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|
11 | refined_scattering_ratio_mie |
binary double | size: 8 |
Refined scattering ratio of the altitude bin using the Mie Core Downhill Simplex algorithm output. If the scattering ratio cannot be computed, the field is set to -1.0
unit: "AU"
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|
12 | mie_signal_to_noise_ratio |
binary double | size: 8 |
Mie Signal-to-Noise ratio of the altitude bin. If the signal-to-noise ratio cannot be computed, the field is set to -1.0
unit: "AU"
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|
13 | refined_mie_signal_to_noise_ratio |
binary double | size: 8 |
Refined scattering ratio of the altitude bin using the Mie Core Downhill Simplex algorithm output. If the scattering ratio cannot be computed, the field is set to -1.0
unit: "AU"
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|
14 | total_mie_signal_to_noise_ratio |
binary double | size: 8 |
Total Mie Signal-to-Noise ratio of the altitude bin using the Mie Core Downhill Simplex algorithm output. If the signal-to-noise ratio cannot be computed, the field is set to -1.0.
unit: "AU"
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|
15 | rayleigh_signal_to_noise_ratio_channel_a |
binary double | size: 8 |
Rayleigh channel A signal-to-noise ratio of the altitude bin.
unit: "AU"
|
|
16 | rayleigh_signal_to_noise_ratio_channel_b |
binary double | size: 8 |
Rayleigh channel B signal-to-noise ratio of the altitude bin.
unit: "AU"
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|
17 | enc_col_channel_a |
binary double | size: 8 |
Col value of the energetic centroid of the observation level altitude bin signal for channel A. Value set to 0 if parameter couldn’t be retrieved.
unit: "ACCD pixel index"
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|
18 | enc_col_channel_b |
binary double | size: 8 |
Col value of the energetic centroid of the observation level altitude bin signal for channel B. Value set to 0 if parameter couldn’t be retrieved.
unit: "ACCD pixel index"
|
|
19 | enc_col_std_dev_channel_a |
binary double | size: 8 |
Energetic centroid column standard deviation value for channel A. Value set to 0 if parameter couldn’t be retrieved.
|
|
20 | enc_col_std_dev_channel_b |
binary double | size: 8 |
Energetic centroid column standard deviation value for channel B. Value set to 0 if parameter couldn’t be retrieved.
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|
|
|
|
24 | num_mie_invalid_measurements |
binary int32 | size: 4 |
Number of Mie invalid measurement data over all bins due to source packet invalid, data corruption, laser frequency unlocked, or satellite attitude not on target
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|
25 | num_mie_invalid_reference_pulse |
binary int32 | size: 4 |
Number of Mie invalid measurement data over all bins due to source packet invalid, data corruption, or laser frequency unlocked
|
|
26 | num_rayleigh_invalid_measurements |
binary int32 | size: 4 |
Number of Rayleigh invalid measurement data over all bins due to source packet invalid, data corruption, laser frequency unlocked, or satellite attitude not on target
|
|
27 | num_rayleigh_invalid_reference_pulse |
binary int32 | size: 4 |
Number of Rayleigh invalid measurement data over all bins due to source packet invalid, data corruption, or laser frequency unlocked
|
|
28 | mie_mean_emitted_frequency |
binary double | size: 8 |
Emitted responses calculated using : eqn 58 from R-2 for the reference pulse of the observation : eqn 60 from R-2 for the reference pulse of a measuremen : emitted responses are then converted to emitted frequencies
unit: "GHz"
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|
29 | mie_emitted_frequency_std_dev |
binary double | size: 8 |
Emitted frequencies standard deviation
unit: "GHz"
|
|
30 | rayleigh_mean_emitted_frequency |
binary double | size: 8 |
Emitted responses calculated using : eqn 58 from R-2 for the reference pulse of the observation : eqn 60 from R-2 for the reference pulse of a measuremen : emitted responses are then converted to emitted frequencies
unit: "GHz"
|
|
31 | rayleigh_emitted_frequency_std_dev |
binary double | size: 8 |
Emitted frequencies standard deviation
unit: "GHz"
|
|
32 | multimode_ratio_quality_flag |
binary uint8 | size: 1 |
Flag that is set if the multimode ratio falls below the multimode ratio threshold for an observation
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|
33 | txa_frequency |
binary double | size: 8 |
Mean of up to N*P values of the TXA frequency of valid pulses
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|
34 | RSPT_Temperatures |
binary array[6] | size: 192 |
binary record | size: 32 |
RSPT temperatures for each sensor and each time sample in the BRC
id | field name | definition |
0 | tc_8_rspt_1 |
binary double | size: 8 |
Sensor RSPT temperature
|
|
1 | tc_9_rspt_2 |
binary double | size: 8 |
Sensor RSPT temperature
|
|
2 | tc_10_rspt_3 |
binary double | size: 8 |
Sensor RSPT temperature
|
|
3 | tc_11_rspt_4 |
binary double | size: 8 |
Sensor RSPT temperature
|
|
|
|
|
35 | M1_Temperatures |
binary record | size: 120 |
id | field name | definition |
0 | aht_22_tel_m1 |
binary double | size: 8 |
Average of Aht 22 M1 temperatures
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|
1 | aht_23_tel_m1 |
binary double | size: 8 |
Average of Aht 23 M1 temperatures
|
|
2 | aht_24_tel_m1 |
binary double | size: 8 |
Average of Aht 24 M1 temperatures
|
|
3 | aht_25_tel_m1 |
binary double | size: 8 |
Average of Aht 25 M1 temperatures
|
|
4 | aht_26_tel_m1 |
binary double | size: 8 |
Average of Aht 26 M1 temperatures
|
|
5 | aht_27_tel_m1 |
binary double | size: 8 |
Average of Aht 27 M1 temperatures
|
|
6 | tc_18_tel_m11 |
binary double | size: 8 |
Average of TC 18 Tel M1-1 temperatures
|
|
7 | tc_19_tel_m12 |
binary double | size: 8 |
Average of TC 19 Tel M1-2 temperatures
|
|
8 | tc_20_tel_m13 |
binary double | size: 8 |
Average of TC 20 Tel M1-3 temperatures
|
|
9 | tc_21_tel_m14 |
binary double | size: 8 |
Average of TC 21 Tel M1-4 temperatures
|
|
10 | tc_25_tm15_ths1y |
binary double | size: 8 |
Average of TC 25 TM15 Ths1-Y temperatures
|
|
11 | tc_27_tm16_ths1y |
binary double | size: 8 |
Average of TC 27 TM16 Ths1-Y temperatures
|
|
12 | tc_29_ths2 |
binary double | size: 8 |
Average of TC 29 Ths2 temperatures
|
|
13 | tc_23_ths1 |
binary double | size: 8 |
Average of TC 23 Ths1 temperatures
|
|
14 | tc_32_ths3 |
binary double | size: 8 |
Average of TC 32 Ths3 temperatures
|
|
|
|
36 | spare_3 |
binary bytes | size: 4 |
Spare
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hidden: true
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