@misc{oai:repo.qst.go.jp:00075756,
 author = {榊, 泰直 and 岩田, 佳之 and 西内, 満美子 and 宮原, 巧 and 塩川, 桂一郎 and 近藤, 康太郎 and 真鍋, 征也 and ドーバー, ニコラス ピーター and ロウ, ヘーゼル フランシス and 渡辺, 幸信 and 神門, 正城 and 近藤, 公伯 and Sakaki, Hironao and Iwata, Yoshiyuki and Nishiuchi, Mamiko and Miyahara, Takumi and Shiokawa, Keiichiro and Kondo, Kotaro and Manabe, Seiya and Dover, NicholasPeter and Lowe, HazelFrances and Watanabe, Yukinobu and Kando, Masaki and Kondo, Kiminori},
 month = {Apr},
 note = {At upgraded petawatt-class J-KARENP laser experiment, we have demonstrated the high charge-states heavy ions to high energies through the interaction of an intense and short laser pulse with a solid target. Petawatt-class laser-solid interaction experiments produce to ion species from the base metal, include contamination ions, with the energy spectrum ranging from a few MeV/u to a few tens MeV/u. And these ion beams have peculiar characteristics; good emittance, high charge-states, and particle flux. Several possible applications of these ion beams have been suggested as injectors for heavy ion accelerators and in the hadron therapy . In order to achieve these applications in the future, it is required to control the ion beam parameters using some scaling models which are made from obtain spectra of each ions. The laser-solid interaction experiments generally use to get the ion spectrum the Thomson parabola and photostimulable phosphor detector (Imaging plate). The imaging plate has a wide dynamic reigns and few tens micrometer resolution. It diagnose a single ion track which made from the deposited energies on the imaging plate. Therefore, from the information of the ion track, an identification of ion species should be possible. Details of an identification of ion species from the single track on the imaging plate will be discussed., International Conference on High Energy Density Science 2019},
 title = {Ion identification method using photostimulable phosphor detector},
 year = {2019}
}