Side-line tunable laser transmitter for differential absorption lidar measurements of CO2: design and application to atmospheric measurements

A 2 microm wavelength, 90 mJ, 5 Hz pulsed Ho laser is described with wavelength control to precisely tune and lock the wavelength at a desired offset up to 2.9 GHz from the center of a CO(2) absorption line. Once detuned from the line center the laser wavelength is actively locked to keep the wavele...

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Veröffentlicht in:	Applied optics (2004) 2008-03, Vol.47 (7), p.944-956
Hauptverfasser:	Koch, Grady J, Beyon, Jeffrey Y, Gibert, Fabien, Barnes, Bruce W, Ismail, Syed, Petros, Mulugeta, Petzar, Paul J, Yu, Jirong, Modlin, Edward A, Davis, Kenneth J, Singh, Upendra N
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container_end_page	956
container_issue	7
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container_title	Applied optics (2004)
container_volume	47
creator	Koch, Grady J Beyon, Jeffrey Y Gibert, Fabien Barnes, Bruce W Ismail, Syed Petros, Mulugeta Petzar, Paul J Yu, Jirong Modlin, Edward A Davis, Kenneth J Singh, Upendra N
description	A 2 microm wavelength, 90 mJ, 5 Hz pulsed Ho laser is described with wavelength control to precisely tune and lock the wavelength at a desired offset up to 2.9 GHz from the center of a CO(2) absorption line. Once detuned from the line center the laser wavelength is actively locked to keep the wavelength within 1.9 MHz standard deviation about the setpoint. This wavelength control allows optimization of the optical depth for a differential absorption lidar (DIAL) measuring atmospheric CO(2) concentrations. The laser transmitter has been coupled with a coherent heterodyne receiver for measurements of CO(2) concentration using aerosol backscatter; wind and aerosols are also measured with the same lidar and provide useful additional information on atmospheric structure. Range-resolved CO(2) measurements were made with
doi_str_mv	10.1364/AO.47.000944
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(4500 pulse pairs) integration time, and comparison with a collocated in situ sensor showed the DIAL to measure the same trend of a diurnal variation and to detect shorter time scale CO(2) perturbations. For vertical column measurements the lidar was setup at the WLEF tall tower site in Wisconsin to provide meteorological profiles and to compare the DIAL measurements with the in situ sensors distributed on the tower up to 396 m height. 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(4500 pulse pairs) integration time, and comparison with a collocated in situ sensor showed the DIAL to measure the same trend of a diurnal variation and to detect shorter time scale CO(2) perturbations. For vertical column measurements the lidar was setup at the WLEF tall tower site in Wisconsin to provide meteorological profiles and to compare the DIAL measurements with the in situ sensors distributed on the tower up to 396 m height. Assuming the DIAL column measurement extending from 153 m altitude to 1353 m altitude should agree with the tower in situ sensor at 396 m altitude, there was a 7.9 ppm rms difference between the DIAL and the in situ sensor using a 30 min? rolling average on the DIAL measurement.</abstract><cop>United States</cop><pmid>18311266</pmid><doi>10.1364/AO.47.000944</doi><tpages>13</tpages></addata></record>
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title	Side-line tunable laser transmitter for differential absorption lidar measurements of CO2: design and application to atmospheric measurements
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