Static compression experiments for advanced coupling techniques of laser-driven dynamic compression and precompression target

T. Kimura; N. Ozaki; T. Okuchi; T. Mashimo; K. Miyanishi; T. Endo; T. Jitsui; A. Hirose; M. Ikoma; T. Kakeshita; Y. Sakawa; T. Sano; T. Sano; K. Shimizu; T. Terai; R. Kodama

doi:10.1088/1742-6596/215/1/012152

Static compression experiments for advanced coupling techniques of laser-driven dynamic compression and precompression target

T. Kimura, N. Ozaki, T. Okuchi, T. Mashimo, K. Miyanishi, T. Endo, T. Jitsui, A. Hirose, M. Ikoma, T. Kakeshita, Y. Sakawa, T. Sano, T. Sano, K. Shimizu, T. Terai, R. Kodama

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

Coupling laser-shock and static-compression techniques allows to generate material conditions unreachable by either single-shock or static technique alone. Static compression experiments on water were performed using a precompression cell for laser-driven shock experiments. The pressure on static compression in this work was reproductively 1.3 - 2.3 times higher than in previous works and theoretical predictions. We have also performed static compression experiments using a new anvil material (Gd₃Ga ₅O₁₂) to apply the cell to reflected shock compression. By coupling laser-driven reflected shock compression with precompression technique, it is possible to generate higher pressure and lower temperature range.

Original language	English
Article number	012152
Journal	Journal of Physics: Conference Series
Volume	215
DOIs	https://doi.org/10.1088/1742-6596/215/1/012152
Publication status	Published - 2010

ASJC Scopus subject areas

Physics and Astronomy(all)

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Kimura, T., Ozaki, N., Okuchi, T., Mashimo, T., Miyanishi, K., Endo, T., Jitsui, T., Hirose, A., Ikoma, M., Kakeshita, T., Sakawa, Y., Sano, T., Sano, T., Shimizu, K., Terai, T., & Kodama, R. (2010). Static compression experiments for advanced coupling techniques of laser-driven dynamic compression and precompression target. Journal of Physics: Conference Series, 215, Article 012152. https://doi.org/10.1088/1742-6596/215/1/012152

Kimura, T, Ozaki, N, Okuchi, T, Mashimo, T, Miyanishi, K, Endo, T, Jitsui, T, Hirose, A, Ikoma, M, Kakeshita, T, Sakawa, Y, Sano, T, Sano, T, Shimizu, K, Terai, T & Kodama, R 2010, 'Static compression experiments for advanced coupling techniques of laser-driven dynamic compression and precompression target', Journal of Physics: Conference Series, vol. 215, 012152. https://doi.org/10.1088/1742-6596/215/1/012152

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abstract = "Coupling laser-shock and static-compression techniques allows to generate material conditions unreachable by either single-shock or static technique alone. Static compression experiments on water were performed using a precompression cell for laser-driven shock experiments. The pressure on static compression in this work was reproductively 1.3 - 2.3 times higher than in previous works and theoretical predictions. We have also performed static compression experiments using a new anvil material (Gd3Ga 5O12) to apply the cell to reflected shock compression. By coupling laser-driven reflected shock compression with precompression technique, it is possible to generate higher pressure and lower temperature range.",

author = "T. Kimura and N. Ozaki and T. Okuchi and T. Mashimo and K. Miyanishi and T. Endo and T. Jitsui and A. Hirose and M. Ikoma and T. Kakeshita and Y. Sakawa and T. Sano and T. Sano and K. Shimizu and T. Terai and R. Kodama",

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T1 - Static compression experiments for advanced coupling techniques of laser-driven dynamic compression and precompression target

AU - Kimura, T.

AU - Ozaki, N.

AU - Okuchi, T.

AU - Mashimo, T.

AU - Miyanishi, K.

AU - Endo, T.

AU - Jitsui, T.

AU - Hirose, A.

AU - Ikoma, M.

AU - Kakeshita, T.

AU - Sakawa, Y.

AU - Sano, T.

AU - Shimizu, K.

AU - Terai, T.

AU - Kodama, R.

PY - 2010

Y1 - 2010

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AB - Coupling laser-shock and static-compression techniques allows to generate material conditions unreachable by either single-shock or static technique alone. Static compression experiments on water were performed using a precompression cell for laser-driven shock experiments. The pressure on static compression in this work was reproductively 1.3 - 2.3 times higher than in previous works and theoretical predictions. We have also performed static compression experiments using a new anvil material (Gd3Ga 5O12) to apply the cell to reflected shock compression. By coupling laser-driven reflected shock compression with precompression technique, it is possible to generate higher pressure and lower temperature range.

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Static compression experiments for advanced coupling techniques of laser-driven dynamic compression and precompression target

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