物理学进展2023,Vol.43Issue(6):178-187,10.DOI:10.13725/j.cnki.pip.2023.06.002
高功率激光装置上光致电离等离子体光谱实验的理论研究进展
Research Processes on Theoretical Simulation for the X-ray Spectrum in Photoionization Experiment on High Power Laser Facility
摘要
Abstract
Photoionized plasma is an important form of plasma in the universe,which is produced by some high-energy celestial bodies emitting strong radiation fields to irradiate the surrounding thin plasma.With the development of high energy density physics,the pho-toionized plasma can be produced in laboratory.In 2009,Fujioka et al.used the GEKKO-XII laser facility to produce photoionzed Si plasma,and observed X-ray spectrum similar to that in astrophysical environment.This paper reviews the main theoretical simulation results for the experimental X-ray spectrum since this photoionization experiment,and proposes the fu-ture research direction on the photoionized plasma.This review aims to provide a reference for researchers in related fields and deepen their understanding of the physical mechanism of photoionized plasma关键词
等离子体/光致电离/原子过程/X射线光谱Key words
plasma/photoionization/atomic processes/X-ray spectrum分类
化学化工引用本文复制引用
韩波..高功率激光装置上光致电离等离子体光谱实验的理论研究进展[J].物理学进展,2023,43(6):178-187,10.基金项目
本文得到齐鲁师范学院2020年度博士科研启动金(课题代号:KYQD20-0005)和国家自然科学基金(项目批准号:11903006)的资助. (课题代号:KYQD20-0005)
