Sensors (Nov 2023)

Ultrafast Laser-Excited Optical Emission of Xe under Loose-Focusing Conditions

  • Miloš Burger,
  • Kyle S. Latty,
  • Leandro Frigerio,
  • Thiago Arnaud,
  • Kyle C. Hartig,
  • Igor Jovanovic

DOI
https://doi.org/10.3390/s23239374
Journal volume & issue
Vol. 23, no. 23
p. 9374

Abstract

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The optical filament-based radioxenon sensing can potentially overcome the constraints of conventional detection techniques that are relevant for nuclear security applications. This study investigates the spectral signatures of pure xenon (Xe) when excited by ultrafast laser filaments at near-atmosphericpressure and in short and loose-focusing conditions. The two focusing conditions lead to laser intensity differences of several orders of magnitude and different plasma transient behavior. The gaseous sample was excited at atmospheric pressure using ∼7 mJ pulses with a 35 fs pulse duration at 800 nm wavelength. The optical signatures were studied by time-resolved spectrometry and imaging in orthogonal light collection configurations in the ∼400 nm (VIS) and ∼800 nm (NIR) spectral regions. The most prominent spectral lines of atomic Xe are observable in both focusing conditions. An on-axis light collection from an atmospheric air–Xe plasma mixture demonstrates the potential of femtosecond filamentation for the remote sensing of noble gases.

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