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
|
|
1 | num_reference_pulse_invalid |
binary int32 | size: 4 |
The number of reference pulses with invalid status
|
|
2 | num_sat_not_on_target_measurements |
binary int32 | size: 4 |
Number of measurements with the satellite not no target status
|
|
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.
|
|
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.
|
|
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.
|
|
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.
|
|
7 | avg_laser_frequency_offset |
binary double | size: 8 |
Average of commanded laser frequency offset
unit: "GHz"
|
|
8 | avg_uv_energy |
binary double | size: 8 |
Average laser UV energy
unit: "mJ"
|
|
9 | laser_frequency_offset_std_dev |
binary double | size: 8 |
Laser frequency offset standard deviation
unit: "GHz"
|
|
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"
|
|
11 | mie_ref_pulse_signal_to_noise_ratio |
binary double | size: 8 |
Mie signal to noise ratio for coadded valid pulses of the observation
|
|
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
|
|
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
|
|
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
|
|
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"
|
|
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"
|
|
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.
|
|
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.
|
|
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
|
|
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
|
|
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
|
|
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
|
|
23 | observation_alt_bin_pcd |
binary array[25] | size: 6075 |
binary record | size: 243 |
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"
|
|
1 | error_quantifier_rayleigh |
binary double | size: 8 |
Error quantifier for Rayleigh
unit: "m/s"
|
|
2 | error_quantifier_rayleigh_channel_a |
binary double | size: 8 |
Error quantifier for Rayleigh channel A
unit: "AU"
|
|
3 | error_quantifier_rayleigh_channel_b |
binary double | size: 8 |
Error quantifier for Rayleigh channel B
unit: "AU"
|
|
4 | mie_wind_velocity_std_dev |
binary double | size: 8 |
Mie wind velocity standard deviation of the altitude bin
unit: "m/s"
|
|
5 | rayleigh_wind_velocity_std_dev |
binary double | size: 8 |
Rayleigh wind velocity standard deviation of the altitude bin
unit: "m/s"
|
|
6 | mie_useful_signal_std_dev |
binary double | size: 8 |
Mie useful signal tandard deviation of the altitude bin
unit: "AU"
|
|
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"
|
|
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"
|
|
11 | refined_scattering_ratio_mie |
binary double | size: 8 |
Refined scattering ratio of the altitude bin using the Mie Core Downhill Simplex algorithm output or Voigt fit output. If the scattering ratio cannot be computed, the field is set to -1.0
unit: "AU"
|
|
12 | refined_scattering_ratio_error_mie |
binary double | size: 8 |
Error of refined scattering ratio of the altitude bin using the Voigt fit output. If the Voigt fit is not used, the field is set to 0.0.
unit: "AU"
|
|
13 | 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"
|
|
14 | 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"
|
|
15 | 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"
|
|
16 | rayleigh_signal_to_noise_ratio_channel_a |
binary double | size: 8 |
Rayleigh channel A signal-to-noise ratio of the altitude bin.
unit: "AU"
|
|
17 | rayleigh_signal_to_noise_ratio_channel_b |
binary double | size: 8 |
Rayleigh channel B signal-to-noise ratio of the altitude bin.
unit: "AU"
|
|
18 | 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"
|
|
19 | 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"
|
|
20 | 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.
|
|
21 | 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.
|
|
|
|
|
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
|
|
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"
|
|
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
|
|
33 | txa_frequency |
binary double | size: 8 |
Mean of up to N*P values of the TXA frequency of valid pulses
|
|
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
|
|
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
|
hidden: true
|