The effects of incident light wavelength difference on the collective stimulated Brillouin scattering in plasmas

Qiang Wang,Peng Wang,Liang Hao,Xiangming Liu,Wenshuai Zhang,Xingsen Che,Xincheng Liu,Qiangqiang Wang,Sanwei Li,Shiyang Zou,Yingjie Li,Zhichao Li,Wudi Zheng,Baohan Zhang,Wei Zhang,Minqing He,Tao Xu,Xiaohua Jiang,Lifei Hou,Liang Guo,Liqiong Xia,Qiang Yin,Zanyang Guan,Xin Li,Bo Deng,Yulong Li,Xiaoshi Peng,Bin Li,Jiamin Yang,Qi Li,Dong Yang,Feng Wang,Yongkun Ding,Yonggang Liu,P Li ,Taorong Gong ,Hong-Bo Cai ,Kai Pan ,L H Cao ,H S Zhao ,Chunhong Zheng ,Z J Liu ,X T He

doi:10.1063/5.0151372

Abstract

The first laser–plasma interaction experiment using lasers of eight beams grouped into one octad has been conducted on the Shenguang Octopus facility. Although each beam intensity is below its individual threshold for stimulated Brillouin backscattering (SBS), collective behaviors are excited to enhance the octad SBS. In particular, when two-color/cone lasers with wavelength separation 0.3 nm are used, the backward SBS reflectivities show novel behavior in which beams of longer wavelength achieve higher SBS gain. This property of SBS can be attributed to the rotation of the wave vectors of common ion acoustic waves due to the competition of detunings between geometrical angle and wavelength separation. This mechanism is confirmed using massively parallel supercomputer simulations with the three-dimensional laser–plasma interaction code LAP3D.

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