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Differential absorption lidar measurements of atmospheric water vapor using a pseudonoise code modulated aluminum gallium arsenide laser

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posted on 2023-08-04, 15:20 authored by Jonathan Andrew Reiley Rall

Lidar measurements using pseudonoise code modulated AlGaAs lasers are reported. Horizontal path lidar measurements were made at night to terrestrial targets at ranges of 5 and 13 km with 35 mW of average power and integration times of one second. Cloud and aerosol lidar measurements were made to thin cirrus clouds at 13 km altitude with Rayleigh (molecular) backscatter evident up to 9 km. Average transmitter power was 35 mW and measurement integration time was 20 minutes. An AlGaAs laser was used to characterize spectral properties of water vapor absorption lines at 811.617, 816.024, and 815.769 nm in a multipass absorption cell using derivative spectroscopy techniques. Frequency locking of an AlGaAs laser to a water vapor absorption line was achieved with a laser center frequency stability measured to better than one-fifth of the water vapor Doppler linewidth over several minutes. Differential absorption lidar measurements of atmospheric water vapor were made in both integrated path and range-resolved modes using an externally modulated AlGaAs laser. Mean water vapor number density was estimated from both integrated path and range-resolved DIAL measurements and agreed with measured humidity values to within 6.5% and 20%, respectively. Error sources were identified and their effects on estimates of water vapor number density calculated.

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Publisher

ProQuest

Language

English

Notes

Ph.D. American University 1994.

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http://hdl.handle.net/1961/thesesdissertations:2767

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application/pdf

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Unprocessed

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