Robustness of large-area suspended graphene under interaction with intense laser.

Authors :: Kuramitsu, Y.
Minami, T.
Hihara, T.
Sakai, K.
Nishimoto, T.
Isayama, S.
Liao, Y. T.
Wu, K. T.
Woon, W. Y.
Chen, S. H.
Liu, Y. L.
He, S. M.
Su, C. Y.
Ota, M.
Egashira, S.
Morace, A.
Sakawa, Y.
Abe, Y.
Habara, H.
Kodama, R.
Source :: Scientific Reports; 2/16/2022, Vol. 12 Issue 1, p1-11, 11p
Publication Year :: 2022
Abstract: 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. [ABSTRACT FROM AUTHOR]

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