Density and X-ray emission profile relationships in highly ionized high-Z laser-produced plasmas
高原子番号物質の高イオン化レーザープラズマ中の密度とX線放射プロファイルの関係
吉田 健祐*; 藤岡 慎介*; 東口 武史*; 鵜篭 照之*; 田中 のぞみ*; 川崎 将人*; 鈴木 悠平*; 鈴木 千尋*; 富田 健太郎*; 廣瀬 僚一*; 江島 丈雄*; 大橋 隼人*; 錦野 将元; 砂原 淳*; Li, B.*; Dunne, P.*; O'Sullivan, G.*; 柳田 達哉*; 疇地 宏*; 西村 博明*
Yoshida, Kensuke*; Fujioka, Shinsuke*; Higashiguchi, Takeshi*; Ugomori, Teruyuki*; Tanaka, Nozomi*; Kawasaki, Masato*; Suzuki, Yuhei*; Suzuki, Chihiro*; Tomita, Kentaro*; Hirose, Ryoichi*; Ejima, Takeo*; Ohashi, Hayato*; Nishikino, Masaharu; Sunahara, Atsushi*; Li, B.*; Dunne, P.*; O'Sullivan, G.*; Yanagida, Tatsuya*; Azechi, Hiroshi*; Nishimura, Hiroaki*
We present a benchmark measurement of the electron density profile in the region where the electron density is 10 cm and where the bulk of extreme ultraviolet (EUV) emission occurs from isotropically expanding spherical high-Z gadolinium plasmas. It was found that, due to opacity effects, the observed EUV emission is mostly produced from an underdense region. We have analyzed time-resolved emission spectra with the aid of atomic structure calculations, and find that while the multiple ion charge states around 18+ during the laser pulse irradiation.