Millisecond-long suppression of spectroscopic optical signals using laser filamentation

Patrick J. Skrodzki; Patrick J. Skrodzki; Miloš Burger; Miloš Burger; Lauren A. Finney; Lauren A. Finney; Robert Nawara; Robert Nawara; John Nees; Igor Jovanovic; Igor Jovanovic

doi:10.1364/OL.430809

Optics Letters
Vol. 46,
Issue 15,
pp. 3777-3780
(2021)
•https://doi.org/10.1364/OL.430809

Millisecond-long suppression of spectroscopic optical signals using laser filamentation

Patrick J. Skrodzki, Miloš Burger, Lauren A. Finney, Robert Nawara, John Nees, and Igor Jovanovic

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Patrick J. Skrodzki, Miloš Burger, Lauren A. Finney, Robert Nawara, John Nees, and Igor Jovanovic, "Millisecond-long suppression of spectroscopic optical signals using laser filamentation," Opt. Lett. 46, 3777-3780 (2021)

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Table of Contents Category
- Nonlinear Optics
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About this Article
History
- Original Manuscript: May 5, 2021
- Revised Manuscript: July 6, 2021
- Manuscript Accepted: July 6, 2021
- Published: July 30, 2021

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Abstract

Ultrashort laser pulse filamentation in air can extend the delivery of focused laser energy to distances greatly exceeding the Rayleigh length. In this way, remote measurements can be conducted using many standard methods of analytical spectroscopy. The performance of spectroscopic techniques can be enhanced by temporal gating, which rejects the unwanted noise and background. In the present work, we investigate the thermal relaxation of air in the wake of single-filament plasmas using shadowgraphy. We demonstrate that the transient change in refractive index associated with relaxation of the gas can be used to reject both continuous and time-varying spectroscopic signals, including emission from laser-produced plasmas. This method can augment temporal gating of simple optical detectors.

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Optics Letters