泵耗主导气泡机制下的高效激光汪场加速器

IF 2.4 3区物理与天体物理 Q1 Mathematics Physical review. E Pub Date : 2024-09-06 DOI:10.1103/physreve.110.035202

V. Horný, P. G. Bleotu, D. Ursescu, V. Malka, P. Tomassini

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引用次数: 0

摘要

随着后压缩技术的使用，如今可以获得几周焦耳级的激光脉冲，从而扩展了以 10 Hz 重复频率工作的 100 TW 级激光的技术水平。在这封信中，我们探讨了在这种脉冲驱动下的汪场加速潜力。根据数值建模预测，50% 的激光脉冲能量可以转移到能量超过 15 MeV 的电子中，而能量达到数百 MeV 的电子的电荷量则超过数纳库仑。在这种情况下，激光脉冲的能量会迅速消耗到等离子体中，从而产生强烈的空化唤醒场。自膨胀效应导致气泡持续延长，从而产生大量持续的自喷射，这也是光束电荷极高的原因，使这种方法适用于促进轫致辐射发射器和三级粒子（包括通过光核反应释放的中子）的产生。

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Efficient laser wakefield accelerator in pump depletion dominated bubble regime

With the usage of the postcompression technique, few-cycle joule-class laser pulses are nowadays available extending the state of the art of 100 TW-class laser working at 10 Hz repetition. In this Letter, we explore the potential of wakefield acceleration when driven with such pulses. The numerical modeling predicts that 50% of the laser pulse energy can be transferred into electrons with energy above 15 MeV, and with charge exceeding several nanocoulombs for the electrons at hundreds of MeV energy. In such a regime, the laser pulse depletes its energy to plasma rapidly driving a strong cavitated wakefield. The self-steepening effect induces a continuous prolongation of a bubble resulting in a massive continuous self-injection that explains the extremely high charge of the beam rending this approach suitable for promoting Bremsstrahlung emitter and generator of tertiary particles, including neutrons released through photonuclear reactions.

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来源期刊

Physical review. E 物理-物理：流体与等离子体

CiteScore

4.60

自引率

16.70%

发文量

审稿时长

3.3 months

期刊介绍： Physical Review E (PRE), broad and interdisciplinary in scope, focuses on collective phenomena of many-body systems, with statistical physics and nonlinear dynamics as the central themes of the journal. Physical Review E publishes recent developments in biological and soft matter physics including granular materials, colloids, complex fluids, liquid crystals, and polymers. The journal covers fluid dynamics and plasma physics and includes sections on computational and interdisciplinary physics, for example, complex networks.