Simulation of Extreme Ultraviolet Radiation and Conversion Efficiency of Lithium Plasma in a Wide Range of Plasma Situations

Atoms Pub Date : 2024-03-12 DOI:10.3390/atoms12030016
Xiangdong Li, F. Rosmej, Zhanbin Chen
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Abstract

Based on the detailed term accounting approach, the relationship between extreme ultraviolet conversion efficiency and plasma conditions, which range from 5 to 200 eV for plasma temperature and from 4.63 × 1017 to 4.63 × 1022 cm−3 for plasma density, is studied for lithium plasmas through spectral simulations involving very extended atomic configurations, including a benchmark set of autoionizing states. The theoretical limit of the EUV conversion efficiency and its dependence on sustained plasma time are given for different plasma densities. The present study provides the necessary understanding of EUV formation from the perspective of atomic physics and also provides useful knowledge for improving EUV conversion efficiency with different technologies.
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模拟多种等离子体情况下的极端紫外线辐射和锂等离子体的转换效率
基于详细的术语核算方法,通过涉及非常扩展的原子构型(包括一组基准自电离状态)的光谱模拟,研究了锂等离子体的极紫外转换效率与等离子体条件之间的关系,等离子体温度范围为 5 至 200 eV,等离子体密度范围为 4.63 × 1017 至 4.63 × 1022 cm-3。针对不同的等离子体密度,给出了超紫外转换效率的理论极限及其与持续等离子体时间的关系。本研究从原子物理学的角度提供了对超紫外形成的必要理解,也为利用不同技术提高超紫外转换效率提供了有用的知识。
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Atoms
Atoms
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