@article{oai:repo.qst.go.jp:00085648,
 author = {Kuramitsu, Y. and Minami, T. and Hihara, T. and Sakai, K. and Nishimoto, T. and Isayama, S. and Liao, Y.T. and Wu, K.T. and Woon, W.Y. and Chen, S.H. and Liu, Y.L. and He, S.M. and Su, C.Y. and Ota, M. and Egashira, S. and Morace, A. and Sakawa, Y. and Habara, H. and Kodama, R. and N. K. Dohl, L. and Woolsey, N. and Koenig, M. and Kanasaki, M. and Takafumi, Asai and Yamauchi, T. and Oda, K. and Kotaro, Kondo and Hiromitsu, Kiriyama and Yuji, Fukuda and Takafumi, Asai and Kotaro, Kondo and Hiromitsu, Kiriyama and Yuji, Fukuda},
 journal = {Scientific Reports},
 month = {Feb},
 note = {Graphene is known as an atomically thin, transparent, highly electrically and thermally conductive, light‐weight, and the strongest 2D material. We investigate disruptive application of graphene as
a target of laser‐driven ion acceleration. We develop large‐area suspended graphene (LSG) and by transferring graphene layer by layer we control the thickness with precision down to a single atomic layer. Direct irradiations of the LSG targets generate MeV protons and carbons from sub‐relativistic to relativistic laser intensities from low contrast to high contrast conditions without plasma mirror, evidently showing the durability of graphene.},
 title = {Robustness of large‐area suspended graphene under interaction with intense laser},
 volume = {12},
 year = {2022}
}