高分辨率 X 射线光谱显示高电荷类镍离子的逸散电子态发射的时间演变。

IF 1.5 4区物理与天体物理 Q3 OPTICS The European Physical Journal D Pub Date : 2024-06-25 DOI:10.1140/epjd/s10053-024-00872-0

Timothy Burke, Endre Takacs, Dipti, Adam Hosier, Galen O’Neil, Joseph Tan, Hunter Staiger, Aung Naing, Joan Marler, Yuri Ralchenko

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引用次数: 0

摘要

摘要：只能通过高度禁止的转变衰变的高电荷离子的陨变水平会对高温等离子体的特性产生重大影响。例如，类镍离子中被高度禁止的 3d 10 J = 0 - 3d 9 4 s ( 5 2 , 1 2 ) J = 3 磁性八极（M3）转变会导致其上层产生大量的可陨落粒子，然后这些粒子会被能量低于基态电离势的电子电离。我们提出了一种在电子束离子阱（EBIT）中通过 X 射线发射衰变来研究高电荷离子中可迁移电子态的方法。发射强度的时间演变可用于研究电离平衡动力学参数和逸散态的寿命。新型过渡边传感器微量热计阵列的时间和能量分辨率使得在美国国家标准与技术研究院的 EBIT 进行这些研究成为可能。图文摘要：NOMAD 计算了不同电子密度下钕中类镍线和类钴线比率的时间演变，并与测量比率进行了比较。

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High resolution X-ray spectra of the time evolution of emission from metastable electronic states of highly charged Ni-like ions

Metastable levels of highly charged ions that can only decay via highly forbidden transitions can have a significant effect on the properties of high temperature plasmas. For example, the highly forbidden 3d\(^{10}\) \(_{J=0}\) - 3d\(^9\)4 s \((\frac{5}{2},\frac{1}{2})_{J=3}\) magnetic octupole (M3) transition in nickel-like ions can result in a large metastable population of its upper level which can then be ionized by electrons of energies below the ground state ionization potential. We present a method to study metastable electronic states in highly charged ions that decay by x-ray emission in electron beam ion traps (EBIT). The time evolution of the emission intensity can be used to study the parameters of ionization balance dynamics and the lifetime of metastable states. The temporal and energy resolution of a new transition-edge sensor microcalorimeter array enables these studies at the National Institute of Standards and Technology EBIT.

NOMAD calculated time evolution of the ratio of the Ni-like and Co-like lines in Nd at varying electron densities compared with measured ratios

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来源期刊

The European Physical Journal D 物理-物理：原子、分子和化学物理

CiteScore

3.10

自引率

11.10%

发文量

213

审稿时长

3 months

期刊介绍： The European Physical Journal D (EPJ D) presents new and original research results in: Atomic Physics; Molecular Physics and Chemical Physics; Atomic and Molecular Collisions; Clusters and Nanostructures; Plasma Physics; Laser Cooling and Quantum Gas; Nonlinear Dynamics; Optical Physics; Quantum Optics and Quantum Information; Ultraintense and Ultrashort Laser Fields. The range of topics covered in these areas is extensive, from Molecular Interaction and Reactivity to Spectroscopy and Thermodynamics of Clusters, from Atomic Optics to Bose-Einstein Condensation to Femtochemistry.