Trajectory of a flying plasma mirror traversing a target with density gradient

arXiv: Plasma Physics Pub Date : 2020-04-22 DOI:10.1063/5.0012374

Pisin Chen, G. Mourou

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引用次数: 16

Abstract

It has been proposed that laser-induced relativistic plasma mirror can accelerate if the plasma has a properly tailored density profile. Such accelerating plasma mirrors can serve as analog black holes to investigate Hawking evaporation and the associated information loss paradox. Here we reexamine the underlying dynamics of mirror motion in a graded-density plasma to provide an explicit trajectory as a function of the plasma density and its gradient. Specifically, a decreasing plasma density profile (down-ramp) along the direction of laser propagation would in general accelerate the mirror. In particular, a constant-plus-exponential density profile would generate the Davies-Fulling trajectory with a well-defined analog Hawking temperature, which is sensitive to the plasma density gradient but not to the density itself. We show that without invoking nano-fabricated thin-films, a much lower density gas target at, for example, $\sim 1\times 10^{17}{\rm cm}^{-3}$, would be able to induce an analog Hawking temperature, $k_{_B}T_{_H}\sim 6.6 \times 10^{-2}{\rm eV}$, in the far-infrared region. We hope that this would help to better realize the experiment proposed by Chen and Mourou.

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等离子体反射镜在密度梯度目标上的飞行轨迹

有人提出，如果等离子体具有适当的密度分布，激光诱导的相对论等离子体反射镜可以加速。这种加速等离子体镜可以作为模拟黑洞来研究霍金蒸发和相关的信息损失悖论。在这里，我们重新研究了梯度密度等离子体中镜像运动的潜在动力学，以提供作为等离子体密度及其梯度函数的明确轨迹。具体来说，沿着激光传播方向的等离子体密度曲线(下降斜坡)通常会加速反射镜。特别是，常数+指数密度曲线将产生具有定义良好的模拟霍金温度的戴维斯-富勒轨迹，该轨迹对等离子体密度梯度敏感，但对密度本身不敏感。我们证明，在不调用纳米薄膜的情况下，低密度的气体靶，例如$\sim 1\乘以10^{17}{\rm cm}^{-3}$，将能够在远红外区域诱导出模拟的霍金温度$k_{_B}T_{_H}\sim 6.6 \乘以10^{-2}{\rm eV}$。我们希望这将有助于更好地实现Chen和Mourou提出的实验。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv: Plasma Physics

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