DataStreams: | sgp10rlprofdep1turnC1.c1, sgprlC1.00, sgp10rlprofbe1newsC1.s1, sgp10rlprofmr1turnC1.c0, sgprlprofmerge1turnC1.c0, sgprllogC1.a0, sgp10srlprofasr1ferrC1.c0, sgp2rlprofdep1turnC1.c0, sgp10srlprofmr1turnC1.c0, sgp10rlprofbe1turnC1.c1, sgp10rlprofbe1newsC1.c1, sgp1rlprofasr1ferrC1.c0, sgp10rlprofasr1ferrC1.c0, sgp10rlproftemp1newsC1.c0, sgp10rlprofdep1turnC1.c0, sgprlC1.a0, sgp10rlprofext1ferrC1.c1, sgp1rlprofext1ferrC1.c0, sgp10rlprofmr1turnC1.c1, sgp60rlproftemp1newsC1.c0, sgp10rlprofbe1turnC1.c0, sgp10rlprofext1ferrC1.c0, sgp10rlprofasr1ferrC1.c1
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Measurements: | sgp1rlprofasr1ferrC1.c0: - null(Documentation not available)
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sgp10rlprofext1ferrC1.c0: - null(Documentation not available)
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sgprlprofmerge1turnC1.c0: - Wavelength of each of the 6 filters measured by the MFR radiometers(filter)
- Fit parameters for the low nitrogen channel(parameters_nitrogen_low)
- Average cloud base height used in the retrieval(cbh)
- Number of photons counted in the high elastic (aerosol) channel(elastic_counts_high)
- Relative Humidity (hybrid-b grid)(rh)
- Height range of the low channel aerosol scattering ratio profile(height_low)
- Fit parameters for the high nitrogen channel(parameters_nitrogen_high)
- Supplemental 5(s5)
- Supplemental 6(s6)
- Supplemental 3(s3)
- Supplemental 4(s4)
- Supplemental 1(s1)
- Supplemental 2(s2)
- Supplemental 9(s9)
- Supplemental 7(s7)
- Supplemental 8(s8)
- Mean electronic background subtracted from the low channel elastic analog signal(electronic_background_elastic_analog_low)
- Solar background in the low channel nitrogen channel(solar_background_nitrogen_low)
- Fit parameters for the high temperature #2 channel(parameters_t2_high)
- Glue coefficient (offset) for high temperature #1 channel(t1_counts_high_glue_coef_offset)
- Mean electronic background subtracted from the high channel depolarization
analog signal(electronic_background_depolarization_analog_high) - Number of lidar pulses summed(shots_summed)
- Glue coefficient (slope) for high depolarization channel(depolarization_counts_high_glue_coef_slope)
- Glue coefficient (offset) for high temperature #2 channel(t2_counts_high_glue_coef_offset)
- Solar background in the low channel elastic channel(solar_background_elastic_low)
- Fit parameters for the high depolarization channel(parameters_depolarization_high)
- Glue coefficient (offset) for high liquid channel(liquid_counts_high_glue_coef_offset)
- Fit parameters for the low water vapor channel(parameters_water_low)
- Binary flags indicating whether PC or analog data were used in the profile(merge_flags_high)
- Mean electronic background subtracted from the high channel nitrogen analog
signal(electronic_background_nitrogen_analog_high) - Number of photons counted in the low elastic (aerosol) channel(elastic_counts_low)
- Temperature average, sensor 1(temp1)
- Temperature 3 inside the instrument enclosure(temp3)
- Temperature average, sensor 2(temp2)
- Temperature 5 inside the instrument enclosure(temp5)
- Temperature 4 inside the instrument enclosure(temp4)
- Temperature 6 inside the instrument enclosure(temp6)
- Mean electronic background subtracted from the low channel nitrogen analog
signal(electronic_background_nitrogen_analog_low) - Count rate in the high water vapor channel(water_counts_high)
- Fit parameters for the high elastic channel(parameters_elastic_high)
- Adjustment to ensure solar background from AD and PC data are identical for the
high depolarization channel(solar_offset_nudge_dh) - Number of photons counted in the high nitrogen channel(nitrogen_counts_high)
- Glue coefficient (offset) for high depolarization channel(depolarization_counts_high_glue_coef_offset)
- Adjustment to ensure solar background from AD and PC data are identical for the
high elastic channel(solar_offset_nudge_eh) - Adjustment to ensure solar background from AD and PC data are identical for the
low elastic channel(solar_offset_nudge_el) - Binary flags indicating whether PC or analog data were used in the profile(merge_flags_low)
- Fit parameters for the high water vapor channel(parameters_water_high)
- Cloud value check flag(cloud_value_check)
- Mean electronic background subtracted from the high channel elastic analog
signal(electronic_background_elastic_analog_high) - Laser pulse energy(pulse_energy)
- Fit parameters for the high liquid channel(parameters_liquid_high)
- Glue coefficient (slope) for high elastic channel(elastic_counts_high_glue_coef_slope)
- Glue coefficient (offset) for high nitrogen channel(nitrogen_counts_high_glue_coef_offset)
- Glue coefficient (offset) for low nitrogen channel(nitrogen_counts_low_glue_coef_offset)
- Glue coefficient (slope) for low water vapor channel(water_counts_low_glue_coef_slope)
- Supplemental 10(s10)
- Mean electronic background subtracted from the high channel water vapor analog
signal(electronic_background_water_analog_high) - Mean electronic background subtracted from the low channel water vapor analog
signal(electronic_background_water_analog_low) - Glue coefficient (offset) for low water vapor channel(water_counts_low_glue_coef_offset)
- Number of photons counted in the liquid water channel(liquid_counts_high)
- Adjustment to ensure solar background from AD and PC data are identical for the
high liquid channel(solar_offset_nudge_lw) - Glue coefficient (offset) for high water vapor channel(water_counts_high_glue_coef_offset)
- Mean electronic background subtracted from the high channel temperature #1
analog signal(electronic_background_t1_analog_high) - Mean electronic background subtracted from the high channel temperature #2
analog signal(electronic_background_t2_analog_high) - Adjustment to ensure solar background from AD and PC data are identical for the
high nitrogen channel(solar_offset_nudge_nh) - Fit parameters for the high temperature #1 channel(parameters_t1_high)
- Adjustment to ensure solar background from AD and PC data are identical for the
low nitrogen channel(solar_offset_nudge_nl) - Glue coefficient (offset) for low elastic channel(elastic_counts_low_glue_coef_offset)
- Glue coefficient (slope) for high temperature #2 channel(t2_counts_high_glue_coef_slope)
- Glue coefficient (slope) for high nitrogen channel(nitrogen_counts_high_glue_coef_slope)
- Number of photons counted in the temperature 2 channel(t2_counts_high)
- Number of photons counted in the low water vapor channel(water_counts_low)
- Glue coefficient (slope) for high water vapor channel(water_counts_high_glue_coef_slope)
- Height range of the high channel aerosol scattering ratio profile(height_high)
- Glue coefficient (slope) for high temperature #1 channel(t1_counts_high_glue_coef_slope)
- Glue coefficient (offset) for high elastic channel(elastic_counts_high_glue_coef_offset)
- Adjustment to ensure solar background from AD and PC data are identical for the
high temperature #1 channel(solar_offset_nudge_t1) - Adjustment to ensure solar background from AD and PC data are identical for the
high temperature #2 channel(solar_offset_nudge_t2) - Parameters associated with the fit of the analog and photon counting data(parameters)
- Mean electronic background subtracted from the high channel liquid analog signal(electronic_background_liquid_analog_high)
- Glue coefficient (slope) for low elastic channel(elastic_counts_low_glue_coef_slope)
- N2 cloud check value(n2_cloud_check_value)
- Fit parameters for the low elastic channel(parameters_elastic_low)
- Glue coefficient (slope) for high liquid channel(liquid_counts_high_glue_coef_slope)
- Nominal number of seconds of data acquired(acquisition_time)
- Laser head in use(laser_head)
- Adjustment to ensure solar background from AD and PC data are identical for the
low water vapor channel(solar_offset_nudge_wl) - Number of photons counted in the temperature 1 channel(t1_counts_high)
- Adjustment to ensure solar background from AD and PC data are identical for the
high water vapor channel(solar_offset_nudge_wh) - Glue coefficient (slope) for low nitrogen channel(nitrogen_counts_low_glue_coef_slope)
- Number of photons counted in the low nitrogen channel(nitrogen_counts_low)
- Solar background in the low channel water channel(solar_background_water_low)
- Count rate in the high depolarization channel(depolarization_counts_high)
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sgp10rlprofext1ferrC1.c1: - Uncertainty of the aerosol extinction coefficient profile calculated from the
aerosol backscatter coefficient(extinction_from_backscatter_error) - Aerosol extinction coefficient profile created by marrying the merged extinction
from N2 data with the extinction from backscatter data(extinction_married1) - Ratio of aerosol extinction to aerosol backscatter(Sa_1)
- Ratio of aerosol extinction to aerosol backscatter(Sa_2)
- Vertical resolution of the high aerosol extinction coefficient profile data(extinction_high_resolution)
- Aerosol optical depth calculated from the extinction_married1 profile(aod_married1)
- Mask indicating from where the extinction value came from in the aerosol
extinction coefficient profile created by marrying the merged extinction from N2 data w(extinction_married1_mask) - Uncertainty of the aerosol extinction coefficient profile created by merging the
two N2 channels extinction profiles(extinction_1_error) - Aerosol optical depth from the surface computed from the
extinction_from_backscatter profiles(aod_bscat_profile) - Error in the aerosol optical depth calculated from the extinction_1 profile(aod_1_error)
- Aerosol backscatter coefficient at 355 nm - smoothed to N2 extinction resolution(smoothed_backscatter)
- Maximum altitude used in the calculation of the aerosol optical depth from the
extinction_from_backscatter profile(aod_bscat_max_ht) - Aerosol extinction coefficient profile from the low N2 channel data(extinction_low)
- Uncertainty in the aerosol backscatter coefficient at 355 nm(backscatter_error)
- Mode index(mode)
- Uncertainty in the aerosol backscatter coefficient at 355 nm - smoothed to N2
extinction resolution(smoothed_backscatter_error) - Flag denoting the occurrence of power or alignment tweaks(tweaks)
- Aerosol optical depth calculated from the extinction_1 profile(aod_1)
- Average laser energy of the ensemble shots(average_energy)
- Maximum altitude used in the calculation of the aerosol optical depth from the
extinction_1 profile(aod_1_max_ht) - Aerosol extinction coefficient profile from the high N2 channel data(extinction_high)
- Uncertainty of the aerosol extinction coefficient profile from the low N2
channel(extinction_low_error) - Error in the aerosol optical depth calculated from the
extinction_from_backscatter profile(aod_bscat_error) - Vertical resolution of the low aerosol extinction coefficient profile data(extinction_low_resolution)
- Aerosol optical depth from the surface computed from the married1 extinction
profiles(aod_married1_profile) - Number of lidar pulses summed(shots_summed)
- Aerosol optical depth calculated from the extinction_from_backscatter profile(aod_bscat)
- Error in the aerosol optical depth calculated from the extinction_married1
profile(aod_married1_error) - Uncertainty of the aerosol extinction coefficient profile from the high N2
channel(extinction_high_error) - Aerosol extinction coefficient profile calculated from backscatter and the
extinction-to-backscatter ratio(extinction_from_backscatter) - Aerosol optical depth from the surface computed from the extinction_1 profiles(aod_1_profile)
- Aerosol volume backscattering coefficient at 355 nm(backscatter)
- Vertical resolution of the merged aerosol extinction coefficient profile data(extinction_1_resolution)
- Uncertainty of the married aerosol extinction coefficient profile(extinction_married1_error)
- Height range of the high channel aerosol scattering ratio profile(height_high)
- Maximum altitude used in the calculation of the aerosol optical depth from the
extinction_married1 profile(aod_married1_max_ht) - Height range of the low channel aerosol scattering ratio profile(height_low)
- Aerosol extinction coefficient profile created by merging the two N2 channels
extinction profiles(extinction_1) - Uncertainty of the aerosol extinction coefficient profile from the overlap
corrected high N2 channel(extinction_high_olap_corrected_error) - Aerosol extinction coefficient profile from the high N2 channel data, where the
low N2 channel was used to correct for the overlap of the high channel(extinction_high_olap_corrected) more
sgprlC1.00: - (Raw data stream - documentation not supported)
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sgp10rlprofdep1turnC1.c0: - null(Documentation not available)
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sgp10rlprofdep1turnC1.c1: - Cloud base height (for first cloud above height threshold)(cloud_base_height)
- Height(height)
- Cloud depth(cloud_depth)
- Altitude of cloud top used in retrieval(cloud_top_height)
- Depolarization calibration factor(calibration_factor)
- Number of lidar pulses summed(shots_summed)
- Cloud optical thickness computed from nitrogen data(cloud_optical_thickness_n2)
- Cloud mask(cloud_mask)
- Linear depolarization ratio profile(depolarization_ratio)
- Average laser energy of the ensemble shots(average_energy)
- Cloud attenuation flag(attenuation_flag)
- Flag denoting the occurrence of power or alignment tweaks(tweaks)
- Cloud optical thickness computed from aerosol (elastic) data(cloud_optical_thickness_aer)
- Uncertainty of the linear depolarization ratio profile(depolarization_ratio_error)
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sgp10rlprofasr1ferrC1.c0: - null(Documentation not available)
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sgp10rlprofbe1newsC1.s1: - Aerosol scattering ratio(asr)
- Derived pressure(pressure)
- Fraction of the total column amount of water vapor the Raman lidar senses(pwv_fraction)
- Cloud mask from depolarization VAP(cmask)
- Random error in the aerosol extinction coefficient profile(ext_err)
- Temperature used for calculation(temperature)
- Sonde sample times(sample_times_sonde)
- Aerosol backscatter coefficient at 355 nm(bscat)
- Aerosol backscatter coefficient uncertainty(bscat_err)
- Height(height)
- Water vapor mixing ratio observed by the Raman lidar(mr)
- Precipitable water vapor from microwave radiometer(pwv_mwr)
- Precipitable water vapor(pwv)
- Linear depolarization ratio profile(dep)
- Aerosol optical depth uncertainty(aod_err)
- Sonde mixing ratio(mr_sonde)
- Linear depolarization ratio uncertainty(dep_err)
- Aerosol optical depth profiles at 355 nm(aod_profile)
- Relative Humidity (hybrid-b grid)(rh)
- Estimated 1-sigma uncertainty in pwv(pwv_err)
- Uncertainty in cloud optical depth from elastic data(cot_err)
- Aerosol scattering ratio uncertainty(asr_err)
- Uncertainty in water vapor mixing ratio observed by the Raman lidar(mr_err)
- Cloud optical depth from elastic data(cot)
- Maximum altitude used while computing AOD from the extinction profile(aod_max_height)
- Aerosol optical depth at 355 nm(aod)
- Aerosol extinction coefficient(ext)
- Suggested maximum altitude to use the water vapor from the Raman lidar(mr_max_height)
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sgp10srlprofasr1ferrC1.c0: - null(Documentation not available)
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sgprllogC1.a0: - Peak found flag for alignment tweak(al_peak_found)
- Photon counts recorded during the tweak(counts)
- Type of tweak(tweak_type)
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sgp1rlprofext1ferrC1.c0: - null(Documentation not available)
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sgp10rlprofasr1ferrC1.c1: - Scale factor added to the low aerosol scattering ratio at each time sample(scale_add_lo)
- Vertical scale factor for statistical T-test sanity check on high channel data(vert_scale_hi_2)
- Uncertainty of the Calibrated aerosol scattering ratio profile from the low
channel(cal_asr_error_low) - Uncertainty of the aerosol scattering ratio profile from the high channel(asr_error_high)
- Calibration factor applied to the low aerosol scattering ratio at each time
sample(cal_factor_lo) - Calibrated Aerosol scattering ratio profile from the low channel(cal_asr_low)
- Scale factor added to the high aerosol scattering ratio at each time sample and
height(scale_add_hi) - Average laser energy of the ensemble shots(average_energy)
- Temperature used for calculation(temperature)
- Type of calibration used to compute the high channel calibration at each time
interval(hi_cal_type) - Aerosol volume backscattering coefficient at 355 nm(backscatter)
- Uncertainty of the aerosol scattering ratio profile created by merging the two
channels(asr_1_error) - Vertical scale factor to make shape of high channel profile match low channel(vert_scale_hi)
- Number of lidar pulses summed(shots_summed)
- Height range of the high channel aerosol scattering ratio profile(height_high)
- Calibrated Aerosol scattering ratio profile from the high channel(cal_asr_high)
- Uncertainty of the Calibrated aerosol scattering ratio profile from the high
channel(cal_asr_error_high) - Scale factor added to the high aerosol scattering ratio at each time sample and
height (2nd iteration)(scale_add_hi_2) - Corrected Aerosol volume backscattering coefficient at 355 nm - removed negative
vals(corr_bscat) - Aerosol scattering ratio profile created by merging the two Calibrated channels(cal_asr_1)
- Aerosol backscatter coefficient uncertainty(bscat_err)
- Aerosol scattering ratio profile from the low channel(asr_low)
- Height range of the low channel aerosol scattering ratio profile(height_low)
- Differential transmission correction for aerosols(diff_trans_aerosol_corr)
- Flag denoting the occurrence of power or alignment tweaks(tweaks)
- Uncertainty of the aerosol scattering ratio profile created by merging the two
Calibrated channels(cal_asr_1_error) - Aerosol scattering ratio profile created by merging the two channels(asr_1)
- Uncertainty of the aerosol scattering ratio profile from the low channel(asr_error_low)
- Cloud mask(cloud_mask)
- Aerosol scattering ratio profile from the high channel(asr_high)
- Calibration factor applied to the high aerosol scattering ratio at each time
sample(cal_factor_hi) more
sgp10rlproftemp1newsC1.c0: - Flag indicating when the sonde launches occurred(sonde_times)
- Error in calibration coefficient b(b_coef_error)
- Average cloud base height used in the retrieval(cbh)
- Error in the background subtracted rotational Raman signal at 354nm(tp2_error)
- Overlap function(overlap_function)
- Background of the rotational Raman signal at 354nm(tp2_bkg)
- Background subtracted rotational Raman signal at 353nm(tp1)
- Background subtracted rotational Raman signal at 354nm(tp2)
- Temperature from radiosondes, interpolated to this temporal and spatial grid(sonde_temperature)
- Calibrated rotational Raman temperature(rot_raman_temperature)
- Error in calibrated rotational Raman temperature(rot_raman_temperature_error)
- Error in the background subtracted rotational Raman signal at 353nm(tp1_error)
- Raw rotational ratio error(rot_raman_ratio_error)
- Solar background correction factor applied to the calibration coefficient a(a_coef_scale)
- Raw rotational Raman ratio(rot_raman_ratio)
- Calibration coefficient b(b_coef)
- Height(height)
- Error in calibration coefficient a(a_coef_error)
- Solar background correction factor applied to the calibration coefficient b(b_coef_scale)
- Number of lidar pulses summed(shots_summed)
- Background of the rotational Raman signal at 353nm(tp1_bkg)
- Chi-square associated with the mean overlap correction(overlap_chisq)
- Error in the background of the rotational Raman signal at 353nm(tp1_bkg_error)
- Error in the background of the rotational Raman signal at 354nm(tp2_bkg_error)
- Pressure from radiosondes, interpolated to this temporal and spatial grid(sonde_pressure)
- Calibration coefficient a(a_coef)
- Correlation coefficient associated with the mean overlap correction(overlap_corr)
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sgp10rlprofmr1turnC1.c1: - Water vapor mixing ratio profile from the low channel(mixing_ratio_low)
- Mode index(mode)
- Vertical resolution of bright mode (mode == 2) data(vertical_resolution_bright_mode)
- Uncertainty of the water vapor mixing ratio profile created by merging the two
channels(mixing_ratio_1_error) - Random error in the precipitable water vapor observed by the Raman lidar(pwv_rl_err)
- Height(height)
- Water vapor mixing ratio profile created by merging the two calibrated channels
together with the surface in-situ measurements(mixing_ratio_3) - Water vapor mixing ratio profile created by merging the two calibrated channels(mixing_ratio_2)
- Water vapor mixing ratio profile created by merging the two channels(mixing_ratio_1)
- Average laser energy of the ensemble shots(average_energy)
- Uncertainty of the water vapor mixing ratio profile from the high channel(mixing_ratio_error_high)
- Flag denoting the occurrence of power or alignment tweaks(tweaks)
- Calibration factor used to match the high channel mixing ratio to the low
channel mixing ratio(calib_high_low) - Number of lidar pulses summed(shots_summed)
- Uncertainty of the water vapor mixing ratio profile created by merging the two
calibrated channels(mixing_ratio_3_error) - Precipitable water vapor from microwave radiometer(pwv_mwr)
- Vertical resolution of normal mode (mode == 1) data(vertical_resolution_normal_mode)
- Relative humidity over ice calculated from the merged water vapor mixing ratio
data(relative_humidity_over_ice) - base time in epoch(base_time)
- Differential transmission correction for aerosols(diff_trans_aerosol_corr)
- Water vapor mixing ratio(mixing_ratio_other)
- Fraction of the total precipitable water vapor in the column sensed by the Raman
lidar(pwv_rl_fraction) - Uncertainty of the water vapor mixing ratio profile from the low channel(mixing_ratio_error_low)
- Uncertainty of the water vapor mixing ratio profile created by merging the two
calibrated channels(mixing_ratio_2_error) - Cloud base height(cloud_base_height_other)
- Suggested maximum altitude to use the water vapor data from the Raman lidar(wv_rl_max_height)
- Water vapor mixing ratio profile from the high channel(mixing_ratio_high)
- Height range of the low channel aerosol scattering ratio profile(height_low)
- Calibration factor for entire profile(calib_factor)
- Flag indicating whether or not there was a sample from the temperature_source
dataset during the lidars averaging interval (1) or not (0)(sample_times_other) - Height range of the high channel aerosol scattering ratio profile(height_high)
- Derived pressure(pressure)
- Relative humidity calculated from the merged water vapor mixing ratio data(relative_humidity)
- Cloud liquid water vapor by the microwave radiometer(liq_mwr)
- Temperature used for calculation(temperature)
- Precipitable water vapor observed by the Raman lidar(pwv_rl)
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sgp10rlprofmr1turnC1.c0: - null(Documentation not available)
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sgprlC1.a0: - Number of laser shots recorded for the low elastic channel(shots_summed_elastic_low)
- Number of laser shots recorded for the low water channel(shots_summed_water_low)
- Nominal number of seconds of data acquired(acquisition_time)
- Number of photons counted in the temperature 2 channel(t2_counts_high)
- Summed analog signal in the temperature 1 channel(t1_analog_high)
- Summed analog signal in the low elastic channel(elastic_analog_low)
- Number of laser shots recorded for the high depolarization channel(shots_summed_depolarization_high)
- Number of laser shots recorded for the temperature 2 channel(shots_summed_t2_high)
- Number of laser shots recorded for the high elastic channel(shots_summed_elastic_high)
- Number of laser shots recorded for the high nitrogen channel(shots_summed_nitrogen_high)
- Number of laser shots recorded for the liquid water channel(shots_summed_liquid_high)
- Number of photons counted in the high elastic (aerosol) channel(elastic_counts_high)
- Temperature 5 inside the instrument enclosure(temp5)
- Temperature 6 inside the instrument enclosure(temp6)
- Temperature 3 inside the instrument enclosure(temp3)
- Temperature 4 inside the instrument enclosure(temp4)
- Temperature average, sensor 1(temp1)
- Temperature average, sensor 2(temp2)
- Laser pulse energy(pulse_energy)
- Number of laser shots recorded for the high water channel(shots_summed_water_high)
- Summed analog signal in the high elastic channel(elastic_analog_high)
- Number of lidar pulses summed(shots_summed)
- Number of photons counted in the low nitrogen channel(nitrogen_counts_low)
- Summed analog signal in the low nitrogen channel(nitrogen_analog_low)
- N2 cloud check value(n2_cloud_check_value)
- Summed analog signal in the liquid water channel(liquid_analog_high)
- Number of photons counted in the liquid water channel(liquid_counts_high)
- Number of photons counted in the high nitrogen channel(nitrogen_counts_high)
- Summed analog signal in the high depolarization channel(depolarization_analog_high)
- Count rate in the high depolarization channel(depolarization_counts_high)
- Count rate in the high water vapor channel(water_counts_high)
- Laser head in use(laser_head)
- Summed analog signal in the high water vapor channel(water_analog_high)
- Number of laser shots recorded for the temperature 1 channel(shots_summed_t1_high)
- Supplemental 4(s4)
- Supplemental 5(s5)
- Supplemental 6(s6)
- Supplemental 7(s7)
- Supplemental 1(s1)
- Supplemental 10(s10)
- Supplemental 2(s2)
- Supplemental 3(s3)
- Wavelength of each of the 6 filters measured by the MFR radiometers(filter)
- Supplemental 8(s8)
- Supplemental 9(s9)
- Supplemental 11(s11)
- Supplemental 12(s12)
- Relative Humidity (hybrid-b grid)(rh)
- Number of photons counted in the low elastic (aerosol) channel(elastic_counts_low)
- Summed analog signal in the temperature 2 channel(t2_analog_high)
- Number of photons counted in the low water vapor channel(water_counts_low)
- Number of photons counted in the temperature 1 channel(t1_counts_high)
- Summed analog signal in the high nitrogen channel(nitrogen_analog_high)
- Cloud value check flag(cloud_value_check)
- Summed analog signal in the low water vapor channel(water_analog_low)
- Number of laser shots recorded for the low nitrogen channel(shots_summed_nitrogen_low)
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sgp2rlprofdep1turnC1.c0: - null(Documentation not available)
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sgp10rlprofbe1turnC1.c0: - Resolution of the aerosol extinction and backscatter profiles(extinction_resolution)
- Random error in the precipitable water vapor observed by the Raman lidar(pwv_rl_err)
- Random error in the linear depolarization ratio profile(depol_err)
- Relative Humidity (hybrid-b grid)(rh)
- Aerosol backscatter coefficient at 355 nm(bscat)
- Average cloud base height used in the retrieval(cbh)
- Cloud mask from depolarization VAP(cmask)
- Aerosol backscatter coefficient uncertainty(bscat_err)
- Flag indicating whether or not there was a sample from the temperature_source
dataset during the lidars averaging interval (1) or not (0)(sample_times_other) - Water vapor mixing ratio from the Raman lidar near 60 m(rl_w_60m)
- Aerosol scattering ratio(asr)
- Water vapor mixing ratio error from the Raman lidar near 60 m(rl_w_60m_err)
- Resolution of the water vapor profiles(mixing_ratio_resolution)
- Circular depolarization ratio for particulate(depol)
- Aerosol extinction coefficient(ext)
- Precipitable water vapor observed by the Raman lidar(pwv_rl)
- Aerosol optical depth profiles at 355 nm(aod_profile)
- Resolution of the aerosol scattering ratio profile(scattering_ratio_resolution)
- Mode index(mode)
- Fraction of the total precipitable water vapor in the column sensed by the Raman
lidar(pwv_rl_fraction) - Cloud liquid water vapor by the microwave radiometer(liq_mwr)
- Random error in the water vapor mixing ratio profile(w_err)
- Aerosol optical depth uncertainty(aod_err)
- Maximum altitude used while computing AOD from the extinction profile(aod_max_height)
- Aerosol scattering ratio uncertainty(asr_err)
- Temperature(t)
- Median vertical velocity(w)
- pressure(p)
- Aerosol optical depth at 355 nm(aod)
- Water vapor mixing ratio from the 60 m tower(twr_w_60m)
- Precipitable water vapor from microwave radiometer(pwv_mwr)
- Time offset from base_time(time_offset)
- Flag denoting the occurrence of power or alignment tweaks(tweaks)
- Number of lidar pulses summed(shots_summed)
- Random error in the aerosol extinction coefficient profile(ext_err)
- Suggested maximum altitude to use the water vapor data from the Raman lidar(w_max_height)
- Resolution of the depolarization ratio profile(depolarization_resolution)
- Average laser energy of the ensemble shots(average_energy)
- Height(height)
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sgp10rlprofbe1turnC1.c1: - Average cloud base height used in the retrieval(cbh)
- Resolution of the depolarization ratio profile(depolarization_resolution)
- Precipitable water vapor from microwave radiometer(pwv_mwr)
- Precipitable water vapor observed by the Raman lidar(pwv_rl)
- Aerosol optical depth uncertainty(aod_err)
- Cloud liquid water vapor by the microwave radiometer(liq_mwr)
- Water vapor mixing ratio error from the Raman lidar near 60 m(rl_w_60m_err)
- Random error in the aerosol extinction coefficient profile(ext_err)
- Flag denoting the occurrence of power or alignment tweaks(tweaks)
- Resolution of the water vapor profiles(mixing_ratio_resolution)
- Circular depolarization ratio for particulate(depol)
- Aerosol backscatter coefficient at 355 nm(bscat)
- Cloud mask from depolarization VAP(cmask)
- Water vapor mixing ratio from the 60 m tower(twr_w_60m)
- Aerosol optical depth profiles at 355 nm(aod_profile)
- Random error in the precipitable water vapor observed by the Raman lidar(pwv_rl_err)
- Random error in the linear depolarization ratio profile(depol_err)
- Fraction of the total precipitable water vapor in the column sensed by the Raman
lidar(pwv_rl_fraction) - Water vapor mixing ratio from the Raman lidar near 60 m(rl_w_60m)
- Aerosol optical depth at 355 nm(aod)
- Aerosol scattering ratio(asr)
- Maximum altitude used while computing AOD from the extinction profile(aod_max_height)
- Height(height)
- Aerosol extinction coefficient(ext)
- Median vertical velocity(w)
- Temperature(t)
- pressure(p)
- Aerosol backscatter coefficient uncertainty(bscat_err)
- Time offset from base_time(time_offset)
- Number of lidar pulses summed(shots_summed)
- Resolution of the aerosol extinction and backscatter profiles(extinction_resolution)
- Average laser energy of the ensemble shots(average_energy)
- Relative Humidity (hybrid-b grid)(rh)
- Mode index(mode)
- Flag indicating whether or not there was a sample from the temperature_source
dataset during the lidars averaging interval (1) or not (0)(sample_times_other) - Aerosol scattering ratio uncertainty(asr_err)
- Resolution of the aerosol scattering ratio profile(scattering_ratio_resolution)
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sgp10rlprofbe1newsC1.c1: - Suggested maximum altitude to use the water vapor from the Raman lidar(mr_max_height)
- Aerosol optical depth uncertainty(aod_err)
- Sonde mixing ratio(mr_sonde)
- Linear depolarization ratio uncertainty(dep_err)
- Cloud optical depth from elastic data(cot)
- Cloud mask from depolarization VAP(cmask)
- Temperature used for calculation(temperature)
- Aerosol scattering ratio uncertainty(asr_err)
- Aerosol optical depth at 355 nm(aod)
- Uncertainty in cloud optical depth from elastic data(cot_err)
- Precipitable water vapor from microwave radiometer(pwv_mwr)
- Fraction of the total column amount of water vapor the Raman lidar senses(pwv_fraction)
- base time in epoch(base_time)
- Random error in the aerosol extinction coefficient profile(ext_err)
- Water vapor mixing ratio observed by the Raman lidar(mr)
- Aerosol optical depth profiles at 355 nm(aod_profile)
- Precipitable water vapor(pwv)
- Relative Humidity (hybrid-b grid)(rh)
- Maximum altitude used while computing AOD from the extinction profile(aod_max_height)
- Uncertainty in water vapor mixing ratio observed by the Raman lidar(mr_err)
- Derived pressure(pressure)
- Sonde sample times(sample_times_sonde)
- Linear depolarization ratio profile(dep)
- Height(height)
- Aerosol extinction coefficient(ext)
- Aerosol backscatter coefficient at 355 nm(bscat)
- Aerosol scattering ratio(asr)
- Estimated 1-sigma uncertainty in pwv(pwv_err)
- Aerosol backscatter coefficient uncertainty(bscat_err)
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sgp60rlproftemp1newsC1.c0: - Background of the rotational Raman signal at 353nm(tp1_bkg)
- Error in the background subtracted rotational Raman signal at 353nm(tp1_error)
- Error in calibration coefficient b(b_coef_error)
- Calibration coefficient a(a_coef)
- Calibration coefficient b(b_coef)
- Error in calibrated rotational Raman temperature(rot_raman_temperature_error)
- Overlap function(overlap_function)
- Average cloud base height used in the retrieval(cbh)
- Temperature from radiosondes, interpolated to this temporal and spatial grid(sonde_temperature)
- Raw rotational ratio error(rot_raman_ratio_error)
- Error in the background of the rotational Raman signal at 353nm(tp1_bkg_error)
- Number of lidar pulses summed(shots_summed)
- Pressure from radiosondes, interpolated to this temporal and spatial grid(sonde_pressure)
- Error in calibration coefficient a(a_coef_error)
- Error in the background subtracted rotational Raman signal at 354nm(tp2_error)
- Correlation coefficient associated with the mean overlap correction(overlap_corr)
- Flag indicating when the sonde launches occurred(sonde_times)
- Height(height)
- Solar background correction factor applied to the calibration coefficient a(a_coef_scale)
- Calibrated rotational Raman temperature(rot_raman_temperature)
- Solar background correction factor applied to the calibration coefficient b(b_coef_scale)
- Raw rotational Raman ratio(rot_raman_ratio)
- Background subtracted rotational Raman signal at 353nm(tp1)
- Chi-square associated with the mean overlap correction(overlap_chisq)
- Background of the rotational Raman signal at 354nm(tp2_bkg)
- Background subtracted rotational Raman signal at 354nm(tp2)
- Error in the background of the rotational Raman signal at 354nm(tp2_bkg_error)
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sgp10srlprofmr1turnC1.c0: - null(Documentation not available)
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