Frequency stabilization of a diode laser to absorption lines of water vapor in the 944-nm wavelength region

Grady J. Koch; Anthony L. Cook; Colleen M. Fitzgerald; Amin N. Dharamsi

doi:10.1117/1.1354628

1 April 2001 Frequency stabilization of a diode laser to absorption lines of water vapor in the 944-nm wavelength region

Grady J. Koch, Anthony L. Cook, Colleen M. Fitzgerald, Amin N. Dharamsi

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Optical Engineering, Vol. 40, Issue 4, (April 2001). https://doi.org/10.1117/1.1354628

The frequency of an external-cavity diode laser has been stabilized to absorption lines of water vapor at wavelengths around 944 nm. The primary application of this stabilized laser is to provide a frequency reference for differential absorption lidar measurements of atmospheric water vapor. A wavelength modulation technique is used to provide derivative-like error signals for a control loop to continuously tune the laser to line center. The design of the stabilization scheme is provided including the optical layout and feedback loop. Spectroscopic data are presented on several different absorption lines, showing the derivativelike signals used for stabilization. Results of the stabilization show the laser frequency locked to within 10 MHz of absorption line center, well within the precision needed for lidar applications.

©(2001) Society of Photo-Optical Instrumentation Engineers (SPIE)

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Grady J. Koch, Anthony L. Cook, Colleen M. Fitzgerald, and Amin N. Dharamsi "Frequency stabilization of a diode laser to absorption lines of water vapor in the 944-nm wavelength region," Optical Engineering 40(4), (1 April 2001). https://doi.org/10.1117/1.1354628

Published: 1 April 2001

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