Spectrum of five-times ionized krypton: Kr VI

IF 1.9 3区物理与天体物理 Q2 OPTICS

Journal of Quantitative Spectroscopy & Radiative Transfer Pub Date : 2025-08-19 DOI:10.1016/j.jqsrt.2025.109619

Aftab Alam , Abid Husain , K. Haris , A. Tauheed , S. Jabeen

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Abstract

This work describes the spectral analysis of five-times ionized krypton ion (Kr VI) using a high-resolution spectrogram recorded on a 3 m normal incidence vacuum spectrograph in the wavelength 230–2075 Å region. For spectral excitation, a gas-puff triggered spark source was used. This work thoroughly examined all previously reported spectroscopic analyses for Kr VI. Many missing and new levels were added to the list of known energy levels with the help of several supportive transitions. The present experimental findings were theoretically supported within the pseudo-relativistic Hartree–Fock (HFR) formalism implemented in the Cowan suite of codes. A total of 52 (including eight new) energy levels were established with the help of 169 unique observed spectral lines (31 are new) assigned to 175 (6 doubly assigned) transitions. All observed and Ritz wavelengths were reported with their uncertainties, modeled intensities, and other evaluated radiative transition parameters such as transition probabilities and cancellation factors.

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五次电离氪的光谱：Kr VI

本文描述了在波长230-2075 Å区域使用3 m法入射真空光谱仪记录的高分辨率光谱图对五次电离氪离子（Kr VI）进行光谱分析。在光谱激发方面，采用了气雾触发的火花源。这项工作彻底检查了所有先前报道的Kr VI的光谱分析。在几个支持性跃迁的帮助下，许多缺失和新的能级被添加到已知能级列表中。目前的实验结果在Cowan代码套件中实现的伪相对论Hartree-Fock （HFR）形式主义中得到了理论上的支持。共建立了52个（包括8个新的）能级，利用169条独特的观测光谱线（31条是新的）分配给175个（6个双分配）跃迁。报告了所有观测到的和里兹波长及其不确定度、模拟强度和其他评估的辐射跃迁参数，如跃迁概率和抵消因子。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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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.