@inproceedings{oai:repo.qst.go.jp:00054886,
 author = {Inogamov, N.A. and Khokhov, V.A. and Petrov, Y.V. and Zhakhovsky, V.V. and Migdal, K.P. and Ilnitsky, D.K. and 長谷川, 登 and 錦野, 将元 and 山極, 満 and 石野, 雅彦 and 河内, 哲哉 and Faenov, A.Y. and Pikuz, T.A. and Baba, M. and Minami, Y. and 末元, 徹 and 長谷川 登 and 錦野 将元 and 山極 満 and 石野 雅彦 and 河内 哲哉 and 末元 徹},
 book = {AIP Conference Proceedings},
 month = {Jan},
 note = {We determine a way to simulate large objects [2 μm × 2 μm × (0.1+0.3) μm containing ∼ 100 · 109 atoms] using much smaller ones (containing ∼ 0.01 · 109 atoms) by MD. Typical experiments employ large objects. Here the film thickness is 0.1 μm, while the glass layer thickness, which influences the film dynamics during delamination, is 0.3 μm. Recall that a deficit of computer resources for description of a real situation is the commonly encountered problem in the MD simulations.},
 title = {Rarefaction after fast laser heating of a thin metal film on a glass mount,},
 volume = {1893},
 year = {2017}
}