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Mitigation of laser plasma parametric instabilities with broadband lasers

Yao Zhao, Su-Ming Weng, Hanghang Ma, Xiaojun Bai, Z. M. Sheng

2022Reviews of Modern Plasma Physics17 citationsDOIOpen Access PDF

Abstract

Abstract Laser plasma instabilities (LPIs) cause laser energy loss, asymmetric and insufficient compression, and target preheating, thus are assumed to be among the major concerns of inertial confinement fusion research. Mitigation of LPIs can enhance the laser–target coupling efficiency and optimize the target compression dynamics, which is critical for the realization of robust and high-efficiency fusion ignition. Broadband lasers with polychromatic components or random phases have been investigated for decades as an effective alternative to mitigate LPIs. Here, we present a brief overview on the progress of broadband LPIs, including the models of broadband lasers, the involved physics, the conditions for effective suppression of LPIs, and some schemes to produce broadband lasers.

Topics & Concepts

LaserBroadbandInertial confinement fusionPlasmaParametric statisticsRealization (probability)PhysicsMaterials scienceOpticsMathematicsQuantum mechanicsStatisticsLaser-Plasma Interactions and DiagnosticsLaser-induced spectroscopy and plasmaLaser-Matter Interactions and Applications
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