在多波束配置的 petawatt 激光器中探测激光与等离子体相互作用的辐射主导机制

arXiv - PHYS - Plasma Physics Pub Date : 2024-09-12 DOI:arxiv-2409.08134

T. Liseykina, E. Peganov, S. Popruzhenko

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引用次数: 0

摘要

我们用数值方法模拟了一个致密的等离子体微目标在数个相交的飞秒激光脉冲聚焦下的超相对论动力学。我们的目的是研究未来的实验方法，以寻找由辐射摩擦引起的反法拉第效应。我们的研究表明，多波束配置可以降低产生辐射反作用力激发的可探测准静态纵向磁场所需的激光峰值功率。当光束之间的夹角在 10^{\rm o}$左右时，这种效应仍然很显著；当夹角超过 20^{\rm o}$时，这种效应就会消失，并且与光束的相对相位和振幅的变化有关，保持相当稳定。我们的结论是，利用四个红外飞秒线性偏振脉冲（功率为15 petawatt），以大约10^{rm o}$的角度交叉，可以在实验中证明激光与等离子体相互作用的辐射主导机制。

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Probing the radiation-dominated regime of laser-plasma interaction in multi-beam configurations of petawatt lasers

We model numerically the ultrarelativistic dynamics of a dense plasma microtarget in a focus of several intersecting femtosecond laser pulses of multi-petawatt power each. The aim is to examine perspective future experimental approaches to the search of the Inverse Faraday Effect induced by radiation friction. We show that multi-beam configurations allow lowering the peak laser power required to generate a detectable quasi-static longitudinal magnetic field excited due to the radiation reaction force. The effect remains significant at angles around $10^{\rm o}$ between the beams, vanishes when the angle exceeds $20^{\rm o}$, and remains rather stable with respect to variations of relative phases and amplitudes of the beams. We conclude that using four infrared femtosecond linearly polarized pulses, 15 petawatt power each, crossing at angles $\approx 10^{\rm o}$, the radiation-dominated regime of laser-plasma interaction can be experimentally demonstrated.

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arXiv - PHYS - Plasma Physics

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