Spectroscopic measurements of a CO2 absorption line in an open vertical path using an airborne lidar

Ramanathan, Anand; Mao, Jianping; Allan, Graham; Riris, Haris; Weaver, C. J.; Hasselbrack, William; Browell, Edward V.; Abshire, James B.

doi:10.1063/1.4832616

Cited by 23 publications

(20 citation statements)

References 31 publications

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“…Absorption spectroscopy over open paths provides a means of remotely sensing changes in greenhouse gas mole fractionsa critical need for climate change science 1 . It is implemented in satellite instruments, upward-looking Fourier Transform Spectrometers (FTS), and ground-based FTS and laser spectrometers [2][3][4][5][6][7][8][9] . Ideally, these systems should detect the dry-air mole fractions (which correct for variable dilution by water vapor) of multiple gases over long paths with high precision and reproducibility to enable mapping of small gradients in both space and time.…”

Section: Introductionmentioning

confidence: 99%

Frequency-comb-based remote sensing of greenhouse gases over kilometer air paths

Rieker

Giorgetta

Swann

et al. 2014

Optica

339

204

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We demonstrate coherent dual frequency-comb spectroscopy for detecting variations in greenhouse gases. High signal-to-noise spectra are acquired spanning 5990 to 6260 cm -1 (1600 to 1670 nm) covering ~700 absorption features from CO 2 , CH 4 , H 2 O, HDO, and 13 CO 2 , across a 2-km open-air path. The transmission of each frequency comb tooth is resolved, leading to spectra with <1 kHz frequency accuracy, no instrument lineshape, and a 0.0033-cm -1 point spacing. The fitted path-averaged concentrations and temperature yield dry-air mole fractions. These are compared with a point sensor under well-mixed conditions to evaluate current absorption models for real atmospheres. In heterogeneous conditions, timeresolved data demonstrate tracking of strong variations in mole fractions. A precision of <1 ppm for CO 2 and <3 ppb for CH 4 is achieved in 5 minutes in this initial demonstration. Future portable systems could support regional emissions monitoring and validation of the spectral databases critical to global satellitebased trace gas monitoring.

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Section: Introductionmentioning

confidence: 99%

Frequency-comb-based remote sensing of greenhouse gases over kilometer air paths

Rieker

Giorgetta

Swann

et al. 2014

Optica

339

204

View full text Add to dashboard Cite

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“…This provides several benefits including extracting line shape and some information on the vertical CO 2 distribution in the retrievals. It also allows solving for useful spectroscopic information, such as line center wavelengths, line widths and errors in the fits (Ramanathan et al, 2013). This approach also provides information that allows solving for several different measurement environmental variables and instrument parameters, such as Dopplershift and wavelength offsets, baseline tilts and wavelengthdependent instrument transmission.…”

Section: The Airborne Co Sounder Lidarmentioning

confidence: 99%

Airborne measurements of CO<sub>2</sub> column concentrations made with a pulsed IPDA lidar using a multiple-wavelength-locked laser and HgCdTe APD detector

et al. 2018

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Abstract. Here we report on measurements made with an improved CO 2 Sounder lidar during the ASCENDS 2014 and 2016 airborne campaigns. The changes made to the 2011 version of the lidar included incorporating a rapidly wavelength-tunable, step-locked seed laser in the transmitter, using a much more sensitive HgCdTe APD detector and using an analog digitizer with faster readout time in the receiver. We also improved the lidar's calibration approach and the XCO 2 retrieval algorithm. The 2014 and 2016 flights were made over several types of topographic surfaces from 3 to 12 km aircraft altitudes in the continental US. The results are compared to the XCO 2 values computed from an airborne in situ sensor during spiral-down maneuvers. The 2014 results show significantly better performance and include measurement of horizontal gradients in XCO 2 made over the Midwestern US that agree with chemistry transport models. The results from the 2016 airborne lidar retrievals show precisions of ∼ 0.7 parts per million (ppm) with 1 s averaging over desert surfaces, which is an improvement of about 8 times compared to similar measurements made in 2011. Measurements in 2016 were also made over fresh snow surfaces that have lower surface reflectance at the laser wavelengths. The results from both campaigns showed that the mean values of XCO 2 retrieved from the lidar consistently agreed with those based on the in situ sensor to within 1 ppm. The improved precision and accuracy demonstrated in the 2014 and 2016 flights should benefit future airborne science campaigns and advance the technique's readiness for a spacebased instrument.

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“…Our work has shown this information is quite important to minimize instrumental biases in retrievals. It also allows solving for useful spectroscopic information, such as line center wavelengths, line widths and errors in the fits [30].…”

Section: Co 2 Line Choice and Lidar Approachmentioning

confidence: 99%

Airborne Measurements of CO2 Column Concentration and Range Using a Pulsed Direct-Detection IPDA Lidar

et al. 2013

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Abstract:We have previously demonstrated a pulsed direct detection IPDA lidar to measure range and the column concentration of atmospheric CO 2 . The lidar measures the atmospheric backscatter profiles and samples the shape of the 1,572.33 nm CO 2 absorption line. We participated in the ASCENDS science flights on the NASA DC-8 aircraft during August 2011 and report here lidar measurements made on four flights over a variety of surface and cloud conditions near the US. These included over a stratus cloud deck over the Pacific Ocean, to a dry lake bed surrounded by mountains in Nevada, to a desert area with a coal-fired power plant, and from the Rocky Mountains to Iowa, with segments with both cumulus and cirrus clouds. Most flights were to altitudes >12 km and had 5-6 altitude steps. Analyses show the retrievals of lidar range, CO 2 column absorption, and CO 2 mixing ratio worked well when measuring over topography with rapidly changing height and reflectivity, through thin clouds, between cumulus clouds, and to stratus cloud tops. The retrievals shows the decrease in column CO 2 due to growing vegetation when flying over Iowa cropland as well as a sudden increase in CO 2 concentration near a coal-fired power plant. For regions where the CO 2 concentration was relatively constant, the measured CO 2 absorption lineshape (averaged for 50 s) matched the predicted shapes to better than 1% OPEN ACCESSRemote Sens. 2014, 6 444 RMS error. For 10 s averaging, the scatter in the retrievals was typically 2-3 ppm and was limited by the received signal photon count. Retrievals were made using atmospheric parameters from both an atmospheric model and from in situ temperature and pressure from the aircraft. The retrievals had no free parameters and did not use empirical adjustments, and >70% of the measurements passed screening and were used in analysis. The differences between the lidar-measured retrievals and in situ measured average CO 2 column concentrations were <1.4 ppm for flight measurement altitudes >6 km.

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Spectroscopic measurements of a CO2 absorption line in an open vertical path using an airborne lidar

Cited by 23 publications

References 31 publications

Frequency-comb-based remote sensing of greenhouse gases over kilometer air paths

Frequency-comb-based remote sensing of greenhouse gases over kilometer air paths

Airborne measurements of CO<sub>2</sub> column concentrations made with a pulsed IPDA lidar using a multiple-wavelength-locked laser and HgCdTe APD detector

Airborne Measurements of CO2 Column Concentration and Range Using a Pulsed Direct-Detection IPDA Lidar

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Spectroscopic measurements of a CO2 absorption line in an open vertical path using an airborne lidar

Cited by 23 publications

References 31 publications

Frequency-comb-based remote sensing of greenhouse gases over kilometer air paths

Frequency-comb-based remote sensing of greenhouse gases over kilometer air paths

Airborne measurements of CO&lt;sub&gt;2&lt;/sub&gt; column concentrations made with a pulsed IPDA lidar using a multiple-wavelength-locked laser and HgCdTe APD detector

Airborne Measurements of CO2 Column Concentration and Range Using a Pulsed Direct-Detection IPDA Lidar

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Airborne measurements of CO<sub>2</sub> column concentrations made with a pulsed IPDA lidar using a multiple-wavelength-locked laser and HgCdTe APD detector