CO2 dial transmitter/receiver noise characterization and related correlated noise issues

Bradly J. Cooke; Mark J. Schmitt; Roy M. Goeller; Stephen J. Czuchlewski; Kenneth R. Fuller; Nicholas L. Olivas; Bryan E. Laubscher; Robert K. Sander

doi:10.1117/12.236865

29 March 1996 CO₂ dial transmitter/receiver noise characterization and related correlated noise issues

Bradly J. Cooke, Mark J. Schmitt, Roy M. Goeller, Stephen J. Czuchlewski, Kenneth R. Fuller, Nicholas L. Olivas, Bryan E. Laubscher, Robert K. Sander

Author Affiliations +

Proceedings Volume 2702, Gas and Chemical Lasers; (1996) https://doi.org/10.1117/12.236865
Event: Photonics West '96, 1996, San Jose, CA, United States

Abstract

Our approach concerning the development of hard target return CO₂ DIAL transmitter/receiver systems is two phased: (1) through analysis and experiment, develop a fundamental understanding of the transmitter/receiver physics specific to DIAL systems and (2) apply these fundamentals in the development of optimal performance DIAL transmitter/receiver systems. We present our progress and results towards these objectives with the following topics addressed: a general overview of the DIAL transmitter/receiver system characterization effort with a focus on transceiver noise processes. The effects of correlated noise on DIAL performance, especially those effecting statistical convergence over long sample structures, is introduced. And, preliminary measurements of a low-noise, `white' receiver prototype are presented.

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Bradly J. Cooke, Mark J. Schmitt, Roy M. Goeller, Stephen J. Czuchlewski, Kenneth R. Fuller, Nicholas L. Olivas, Bryan E. Laubscher, and Robert K. Sander "CO₂ dial transmitter/receiver noise characterization and related correlated noise issues", Proc. SPIE 2702, Gas and Chemical Lasers, (29 March 1996); https://doi.org/10.1117/12.236865

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