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Collisional-radiative modeling of the 2p3<i>l</i>(<i>l</i> = p,d) spectra of N II and application to lightning

Yingying An, Xiaozhi Shen, Ping Yuan, Zhongwen Wu

2023Journal of Applied Physics14 citationsDOI

Abstract

The excitation energies, transition rates, collisional-excitation cross sections, and collisional-excitation rate coefficients of N II ions have been calculated by the relativistic configuration-interaction method with the implementation of the flexible atomic code. The population rate coefficients were subsequently investigated and shown that the net population rate coefficients of the 2p3d configuration are greater than those of the 2p3p configuration at an identical electron temperature. A reasonable collisional-radiative model has been constructed to simulate the 2p3s–2p3p and 2p3p–2p3d spectra, which were in reasonable agreement with the lightning data presently obtained in experimental measurements. A further application was implemented in effectively determining the lightning parameters, with the aid of a certain area surrounded by the intersections of contours of multiple line-intensity ratios on the two-dimensional plane of electron temperature and electron density.

Topics & Concepts

Atomic physicsIonExcitationRadiative transferSpectral lineCollisional excitationPopulationElectronLightning (connector)Electron temperatureLine (geometry)PhysicsConfiguration interactionElectron densityElectron excitationIonizationExcited stateNuclear physicsOpticsSociologyDemographyGeometryQuantum mechanicsMathematicsPower (physics)AstronomyAtomic and Molecular PhysicsLaser-induced spectroscopy and plasmaMass Spectrometry Techniques and Applications
Collisional-radiative modeling of the 2p3<i>l</i>(<i>l</i> = p,d) spectra of N II and application to lightning | Litcius