Suppression of stimulated Brillouin and Raman scatterings using an alternating frequency laser and transverse magnetic fields

Author:

Cheng 程 Rui-Jin 瑞锦,Li 李 Xiao-Xun 晓旬,Wang 王 Qing 清,Liu 刘 De-Ji 德基,Huang 黄 Zhuo-Ming 卓明,Lv 吕 Shuai-Yu 帅宇,Zhou 周 Yuan-Zhi 远志,Zhang 张 Shu-Tong 舒童,Li 李 Xue-Ming 雪铭,Chen 陈 Zu-Jie 祖杰,Wang 王 Qiang 强,Liu 刘 Zhan-Jun 占军,Cao 曹 Li-Hua 莉华,Zheng 郑 Chun-Yang 春阳

Abstract

A novel scheme to suppress both stimulated Brillouin scattering (SBS) and stimulated Raman scattering (SRS) by combining an alternating frequency (AF) laser and a transverse magnetic field is proposed. The AF laser allows the laser frequency to change discretely and alternately over time. The suppression of SBS is significant as long as the AF difference is greater than the linear growth rate of SBS or the alternating time of the laser frequency is shorter than the linear growth time of SBS. However, the AF laser proves ineffective in suppressing SRS, which usually has a much higher linear growth rate than SBS. To remedy that, a transverse magnetic field is included to suppress the SRS instability. The electrons trapped in the electron plasma waves (EPWs) of SRS can be accelerated by the surfatron mechanism in a transverse magnetic field and eventually detrapped. While continuously extracting energy from EPWs, the EPWs are dissipated and the kinetic inflation of SRS is suppressed. The one-dimensional particle-in-cell simulation results show that both SBS and SRS can be effectively suppressed by combining the AF laser with a transverse magnetic field with tens of Tesla. The total reflectivity can be dramatically reduced by more than one order of magnitude. These results provide a potential reference for controlling SBS and SRS under the related parameters of inertial confinement fusion.

Publisher

IOP Publishing

Subject

General Physics and Astronomy

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