高功率激光实验在环境气体起源的同质磁化等离子体中发展超临界冲击

论文标题

高功率激光实验在环境气体起源的同质磁化等离子体中发展超临界冲击

High-power laser experiment on developing supercritical shock propagating in homogeneously magnetized plasma of ambient gas origin

论文作者

Matsukiyo, S., Yamazaki, R., Morita, T., Tomita, K., Kuramitsu, Y., Tanaka, S. J., Takezaki, T., Isayama, S., Higuchi, T., Murakami, H., Horie, Y., Katsuki, N., Hatsuyama, R., Edamoto, M., Nishioka, H., Takagi, M., Kojima, T., Tomita, S., Ishizaka, N., Kakuchi, S., Sei, S., Sugiyama, K., Aihara, K., Kambayashi, S., Ota, M., Egashira, S., Izumi, T., Minami, T., Nakagawa, Y., Sakai, K., Iwamoto, M., Ozaki, N., Sakawa, Y.

论文摘要

通过使用高功率激光实验形成的具有高于先前实验的环境气体起源的均质磁化等离子体中，发育中的超临界无碰撞冲击具有更高的环境气体起源等离子体。激光射击后的早期产生的等离子体不会污染环境等离子体。虽然观察到的发生冲击没有固定的下游结构，但它具有磁化超临界冲击的某些特征，该特征由一维完全粒子中的粒子中的模拟支持，从而考虑到激光靶向相互作用的有限时间。

A developing supercritical collisionless shock propagating in a homogeneously magnetized plasma of ambient gas origin having higher uniformity than the previous experiments is formed by using high-power laser experiment. The ambient plasma is not contaminated by the plasma produced in the early time after the laser shot. While the observed developing shock does not have stationary downstream structure, it possesses some characteristics of a magnetized supercritical shock, which are supported by a one-dimensional full particle-in-cell simulation taking the effect of finite time of laser-target interaction into account.

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