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30 May 2022 Pulsed CO2 laser source for remote double resonance spectroscopic sensing
Max Schneiderman, Danielle Reyes, Robert Bernath, Henry Everitt, Martin Richardson
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Proceedings Volume PC12092, Laser Technology for Defense and Security XVII; PC120920L (2022) https://doi.org/10.1117/12.2626978
Event: SPIE Defense + Commercial Sensing, 2022, Orlando, Florida, United States
Abstract
Recently, the technique of infrared/terahertz Double Resonance Spectroscopy (DRS) was proposed for remote sensing of trace gases in atmospheric conditions. The atmospheric window of transmission is in the 9-11 µm range, which makes CO2 lasers highly suited for this application. DRS is a valuable detection method because of increased measurement specificity due to terahertz ro-vibrational signature detection. Preliminary DRS measurements utilizing a pulsed CO2 laser source with a known trace gas in a vacuum chamber are discussed. A plan is then presented for future DRS experiments at ambient pressure using ultrafast laser techniques.
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Max Schneiderman, Danielle Reyes, Robert Bernath, Henry Everitt, and Martin Richardson "Pulsed CO2 laser source for remote double resonance spectroscopic sensing", Proc. SPIE PC12092, Laser Technology for Defense and Security XVII, PC120920L (30 May 2022); https://doi.org/10.1117/12.2626978
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KEYWORDS
Spectroscopy
Carbon dioxide lasers
Remote sensing
Atmospheric laser remote sensing
Atmospheric sensing
Infrared radiation
Molecular spectroscopy
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