@misc{oai:repo.qst.go.jp:00080425,
 author = {Kuramitsu, Y. and Minami, T. and Hihara, T. and Sakai, K. and Nishimoto, T. and Takano, M. and Habara, H. and Isayama, S. and Sakawa, Y. and Morace, A. and Egashira, S. and Ota, M. and Nakajima, Y. and Kanasaki, M. and Nakagawa, T. and 浅井, 孝文 and Sakamoto, K. and Shimizu, K. and Oda, K. and Yamauchi, T. and 近藤, 康太郎 and 桐山, 博光 and S.Jinno and Chen, S.H. and Liao, Y.T. and Woon, W.Y. and 福田, 祐仁 and Asai, Takafumi and Kondo, Kotaro and Kiriyama, Hiromitsu and Fukuda, Yuuji},
 month = {Sep},
 note = {We discuss the relativistic ion acceleration by irradiating a nanostructure target with ultra- intense laser. The nanostructure target is mounted on a large-area suspended graphene (LSG), which is a novel solid target with remarkable features such as the thinnest, lightest, strongest, transparent, and reasonable, for laser ion acceleration. We have developed various types of targets such as nanometer thin gold, and other materials on LSG, and now carbon nanotube on LSG. This will enable us to access the unexplored regime, relativistic ions., 日本物理学会 2020年秋季大会},
 title = {Relativistic ion acceleration with nanostructure targets supported by large-area suspended graphene},
 year = {2020}
}