Spectrum and energy levels of the high-lying singly excited configurations of Nd III

arXiv - PHYS - Atomic Physics Pub Date : 2024-08-14 DOI:arxiv-2408.07830

M. Ding, A. N. Ryabtsev, E. Y. Kononov, T. Ryabchikova, J. C. Pickering

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Abstract

Fourier transform spectra of Nd Penning and hollow cathode discharge lamps were recorded within the region 32,500-54,000 cm$^{-1}$ (3077-1852 {\AA}) and grating spectra of Nd vacuum sliding sparks were recorded within the regions 820-1159 {\AA} and 1600-3250 {\AA}. New energy levels were found using the observed wavelengths measured accurate to a few parts in $10^8$ in Fourier transform spectra and to a few parts in $10^7$ in grating spectra. Atomic structure and transition probability calculations of Nd III were made using the Cowan codes by adjusting energy parameters to fit all known Nd III levels. Nd-rich stellar spectra were also used to evaluate the new calculations. In total, 355 transitions were classified from observed spectra involving 116 previously experimentally unknown energy levels of the 4f$^3$7s, 4f$^3$6d, and 4f$^3$5f configurations of Nd III, all reported here for the first time. One newly identified level of the 4f$^3$5d configuration is also reported. Typical level energy uncertainties are 0.01 cm$^{-1}$ for the 4f$^3$7s and 4f$^3$6d levels and 0.3 cm$^{-1}$ for the 4f$^3$5f levels. In addition, calculated energy levels up to 130,936 cm$^{-1}$ are presented, including eigenvector composition and calculated level lifetimes. Calculated transition probabilities and wavelengths between 1900-50,000 {\AA} are also presented. Using newly established levels of the 4f$^3$7s configuration and the recently established levels of the 4f$^3$6s configuration, the ionisation energy of Nd III was estimated at $178,090\pm330$ cm$^{-1}$, doubling the accuracy of the previously published value.

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钕Ⅲ高位单激发构型的光谱和能级

在 32,500-54,000 cm$^{-1}$ (3077-1852 {\AA}) 区域内记录了掺钕潘宁灯和空心阴极放电灯的傅立叶变换光谱，在 820-1159 {\AA} 和 1600-3250 {\AA} 区域内记录了掺钕真空滑动火花的光栅光谱。利用观测到的波长发现了新能级，傅里叶变换光谱的测量值精确到 10^8 美元中的几分之几，光栅光谱的测量值精确到 10^7 美元中的几分之几。通过调整能量参数以适应所有已知的钕三世水平，使用 Cowan 代码对钕三世的原子结构和跃迁概率进行了计算。从观测光谱中总共分类出了 355 个跃迁，涉及 116 个以前实验未知的钕三世 4f$^3$7s、4f$^3$6d 和 4f$^3$5f 构型的能级，所有这些都是首次在这里报告。同时还报告了一个新发现的 4f$^3$5d 构型水平。4f$^3$7s 和 4f$^3$6d 水平的典型能量不确定性为 0.01 cm$^{-1}$，4f$^3$5f 水平的不确定性为 0.3 cm$^{-1}$。此外，还介绍了高达 130,936 cm$^{-1}$ 的能级计算结果，包括特征向量组成和计算的能级寿命。还给出了 1900-50,000 {\AA} 之间的跃迁概率和波长计算结果。利用新建立的 4f$^3$7s 构型水平和最近建立的 4f$^3$6s 构型水平，钕Ⅲ的电离能被估计为 178,090\pm330$ cm$^{-1}$，比以前公布的数值精确了一倍。

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arXiv - PHYS - Atomic Physics

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