Laser-Induced Fluorescence from N<sub>2</sub><sup>+</sup> Ions Generated by a Corona Discharge in Ambient Air

Kumarasiri Konthasinghe; Kristin Fitzmorris; Manoj Peiris; Adam J. Hopkins; Benjamin Petrak; Dennis K. Killinger; Andreas Muller

Applied Spectroscopy
Vol. 69,
Issue 9,
pp. 1042-1046
(2015)

Laser-Induced Fluorescence from N₂⁺ Ions Generated by a Corona Discharge in Ambient Air

Kumarasiri Konthasinghe, Kristin Fitzmorris, Manoj Peiris, Adam J. Hopkins, Benjamin Petrak, Dennis K. Killinger, and Andreas Muller

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Kumarasiri Konthasinghe, Kristin Fitzmorris, Manoj Peiris, Adam J. Hopkins, Benjamin Petrak, Dennis K. Killinger, and Andreas Muller, "Laser-Induced Fluorescence from N₂⁺ Ions Generated by a Corona Discharge in Ambient Air," Appl. Spectrosc. 69, 1042-1046 (2015)

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Abstract

In this work, we present the measurement of laser-induced fluorescence from N₂⁺ ions via the <inline-graphic xmlns:xlink="http://www.w3.org/1999/xlink" xlink:href="i0003-7028-69-9-1042-ilm01.tif"/> band system in the near-ultraviolet. The ions were generated continuously by a plasma glow discharge in low pressure N₂ and by a corona discharge in ambient air. The fluorescence decay time was found to rapidly decrease with increasing pressure leading to an extrapolated decay rate of ≍10¹⁰ s⁻¹ at atmospheric pressure. In spite of this quenching, we were able to observe laser induced fluorescence in ambient air by means of a time-gated spectral measurement. In the process of comparing the emission signal with that of N₂ spontaneous Raman scattering, ion concentrations in ambient air of order 10^8-10¹⁰ cm⁻³ were determined. With moderate increases in laser power and collection efficiency, ion concentrations of less than 10⁶ cm⁻³ may be measurable, potentially enabling applications in atmospheric standoff detection of ionizing radiation from hazardous radioactive sources.

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Abstract

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Applied Spectroscopy