Electron scattering from hydrogen atom in dense semi-classical hydrogen plasma: S-wave resonance states

IF 2.3 3区物理与天体物理 Q2 OPTICS

Journal of Quantitative Spectroscopy & Radiative Transfer Pub Date : 2024-12-15 DOI:10.1016/j.jqsrt.2024.109318

Netai Das, Arijit Ghoshal, Yew Kam Ho

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Abstract

The existence and the behaviour of the resonance states in the scattering of electrons from the hydrogen atoms under semi-classical plasma environments are investigated. The organized effect of the plasma charged particles is modelled by a pseudopotential which takes care of the quantum mechanical effect of diffraction at short distances as well as the collective effect of the plasma particles by means of two adjustable parameters, namely the de Broglie wavelength λ and the screening parameter κ. An extensive square-integrable basis set is employed within the framework of the stabilization method to determine the S-wave resonance states in the e-H system. In particular, the emergence of three S-wave singlet resonance states is identified by noting the stabilized energy levels, whereas the energy and the width of those states are computed from the fitting of the density of the states with the Lorentzian form. The results for the plasma-free case are in good agreement with the established results in the literature. A comprehensive study is made on the changes in the energy and width of the resonance states as a result of variation in λ at a given κ.

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致密半经典氢等离子体中氢原子的电子散射：s波共振态

研究了半经典等离子体环境下氢原子电子散射共振态的存在及其行为。等离子体带电粒子的组织效应是用伪势来模拟的，伪势通过两个可调参数，即德布罗意波长λ和屏蔽参数κ来照顾短距离衍射的量子力学效应和等离子体粒子的集体效应。在稳定方法的框架内，采用了一个广泛的平方可积基集来确定e-H系统的s波共振状态。特别是，三个s波单重态共振状态的出现是通过注意稳定的能级来识别的，而这些状态的能量和宽度是通过状态密度与洛伦兹形式的拟合来计算的。无等离子体情况下的结果与文献中已建立的结果很好地一致。全面研究了共振态的能量和宽度的变化，这是由于λ在给定κ处的变化所导致的。

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来源期刊

Journal of Quantitative Spectroscopy & Radiative Transfer 物理-光谱学

CiteScore

5.30

自引率

21.70%

发文量

273

审稿时长

58 days

期刊介绍： Papers with the following subject areas are suitable for publication in the Journal of Quantitative Spectroscopy and Radiative Transfer: - Theoretical and experimental aspects of the spectra of atoms, molecules, ions, and plasmas. - Spectral lineshape studies including models and computational algorithms. - Atmospheric spectroscopy. - Theoretical and experimental aspects of light scattering. - Application of light scattering in particle characterization and remote sensing. - Application of light scattering in biological sciences and medicine. - Radiative transfer in absorbing, emitting, and scattering media. - Radiative transfer in stochastic media.