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利用空心通道增强非均匀等离子体中相对论激光脉冲的传播。

Enhanced propagation for relativistic laser pulses in inhomogeneous plasmas using hollow channels.

机构信息

LULI, École Polytechnique, CNRS, CEA, UPMC, route de Saclay, 91128 Palaiseau, France.

出版信息

Phys Rev Lett. 2010 Nov 26;105(22):225001. doi: 10.1103/PhysRevLett.105.225001. Epub 2010 Nov 24.

DOI:10.1103/PhysRevLett.105.225001
PMID:21231391
Abstract

The influence of long (several millimeters) and hollow channels, bored in inhomogeneous ionized plasma by using a long pulse laser beam, on the propagation of short, ultraintense laser pulses has been studied. Compared to the case without a channel, propagation in channels significantly improves beam transmission and maintains a beam quality close to propagation in vacuum. In addition, the growth of the forward-Raman instability is strongly reduced. These results are beneficial for the direct scheme of the fast ignitor concept of inertial confinement fusion as we demonstrate, in fast-ignition-relevant conditions, that with such channels laser energy can be carried through increasingly dense plasmas close to the fuel core with minimal losses.

摘要

研究了长(数毫米)且中空的通道对超短、超强激光脉冲传输的影响,这些通道是利用长脉冲激光束在非均匀电离等离子体中钻成的。与无通道的情况相比,通道中的传播显著提高了光束传输效率,并保持了接近真空传播的光束质量。此外,前向喇曼不稳定性的增长也得到了强烈抑制。这些结果有利于惯性约束聚变的快速点火概念的直接方案,因为我们证明了,在与快速点火相关的条件下,通过这种通道可以将激光能量以最小的损失传输到越来越密集的接近燃料核心的等离子体中。

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