Fluid modeling on three dimensional two plasmon decay instabilities and stimulated Raman scattering using FLAME-MD

Rui Yan; Shihui Cao; Zhenhua Wan; Guangyue Hu; Jian Zheng; Liang Hao; Wenda Liu; Chuang Ren

Fluid modeling on three dimensional two plasmon decay instabilities and stimulated Raman scattering using FLAME-MD

POSTER

Abstract

We push our FLAME project forward with a newly developed code \textit{FLAME-MD} (Multi-Dimensional) based on the fluid model presented in Ref.[1]. Simulations are performed to study two plasmon decay (TPD) instabilities and stimulated Raman scattering (SRS) in three dimensions (3D) with parameters relevant to ICF. 3D effects on the growth of TPD and SRS, including laser polarizations and multi beam configurations, are studied. [1] L. Hao et al., Phys. Plasmas \textbf{24}, 062709 (2017)

^*This material is based upon work supported by National Natural Science Foundation of China (NSFC) under Grant No. 11642020, 11621202; by Science Challenge Project (No. JCKY2016212A505); and by DOE Office of Fusion Energy Sciences grant DE-SC0014318.

Authors

Rui Yan
- U. of Science and Technology of China
Shihui Cao
- U. of Science and Technology of China
Zhenhua Wan
- U. of Science and Technology of China
Guangyue Hu
- U. of Science and Technology of China
Jian Zheng
- U. of Science and Technology of China
Liang Hao
- Institute of Applied Physics and Computational Mathematics, China
Wenda Liu
- U. of Rochester
Chuang Ren
- University of Rochester
- U. of Rochester