Issue 17, 2024

Spectral analysis and kinetic modeling of radioluminescence in air and nitrogen

Abstract

In this article we present a quantitative analysis of the second positive system of molecular nitrogen and the first negative system of the molecular nitrogen cation excited in the presence of ionizing radiation. Optical emission spectra of atmospheric air and nitrogen surrounding 210Po sources were measured from 250 to 400 nm. Multi-Boltzmann and non-Boltzmann vibrational distribution spectral models were used to determine the vibrational temperature and vibrational distribution function of the emitting N2(C3Πu) and N2+(B2Σ+u) states. A zero-dimensional kinetic model, based on the electron energy distribution function (EEDF) and steady-state excitation and de-excitation of N2(X1Σ+g), N2+(B2Σ+u), N2+(X2Σ+g), N4+, O2+, and N2(C3Πu, v), was developed for the prediction of the relative spectral intensity of both the N2+(B2Σ+u → X2Σ+g) emission band and the vibrational bands of N2(C3Πu → B3Πg) for comparison with the experimental data.

Graphical abstract: Spectral analysis and kinetic modeling of radioluminescence in air and nitrogen

Article information

Article type
Paper
Submitted
20 Dec 2023
Accepted
03 Apr 2024
First published
04 Apr 2024

Phys. Chem. Chem. Phys., 2024,26, 13316-13326

Spectral analysis and kinetic modeling of radioluminescence in air and nitrogen

E. R. Jans, T. Casey, G. J. Marshall, C. M. Murzyn, S. S. Harilal, B. S. McDonald and R. K. Harrison, Phys. Chem. Chem. Phys., 2024, 26, 13316 DOI: 10.1039/D3CP06198A

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