Coupled electron and atomic kinetics through the solution of the Boltzmann equation for generating time-dependent X-ray spectra
ボルツマン方程式を用いた電子キネティクスと原子キネティクスとの連立による時間依存X線スペクトルの解析
Sherrill, M. E.*; Abdallah, J. Jr.*; Csanak, G.*; Kilcrease, D. P.*; Dodd, E. S.*; 福田 祐仁; 赤羽 温; 青山 誠; 井上 典洋*; 上田 英樹; 山川 考一; Faenov, A. Y.*; Magunov, A. I.*; Pikuz, T. A.*; Skobelev, I. Y.*
Sherrill, M. E.*; Abdallah, J. Jr.*; Csanak, G.*; Kilcrease, D. P.*; Dodd, E. S.*; Fukuda, Yuji; Akahane, Yutaka; Aoyama, Makoto; Inoue, Norihiro*; Ueda, Hideki; Yamakawa, Koichi; Faenov, A. Y.*; Magunov, A. I.*; Pikuz, T. A.*; Skobelev, I. Y.*
本研究では、電子分布関数が非熱的、かつ、イオンの内部状態が非定常であるような極めて非平衡なプラズマ中における電子と原子のキネティクスを自己無矛盾に解くモデルを開発した。このモデルを用いて、原研100TWレーザーを用いて測定されたArクラスターからのK殼X線スペクトル(He
線)の解析を行った。
In this work, we present a model that solves self-consistently the electron and atomic kinetics to characterize highly non-equilibrium plasmas, in particular for those systems where both the electron distribution function is far from Maxwellian and the evolution of the ion level populations are dominated by time dependent atomic kinetics. In this model, level populations are obtained from a detailed collisional-radiative model where collision rates are computed from a time varying electron distribution function obtained from the solution of the zero-dimensional Boltzmann equation. The Boltzmann collision term includes the effects of electron-electron collisions, electron collisional ionization, excitation and de-excitation. An application for He
spectra from a short pulse laser irradiated argon cluster target will be shown to illustrate the results of our model.