Fundamental Plasma Physics (Dec 2024)

Ultra-high charge electron acceleration for nuclear applications

  • Liming Chen,
  • Jie Feng,
  • Wenchao Yan,
  • Hao Xu,
  • Yaojun Li,
  • Wenzhao Wang,
  • Xulei Ge,
  • Xiaojun Huang,
  • Jie Zhang

Journal volume & issue
Vol. 12
p. 100071

Abstract

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Ultra-intense laser-plasma wakefield accelerator possess several superior properties compared with the traditional radio-frequency accelerators. These characteristics include femtosecond duration, micro-source size, and ultra-dense beam density, result in highly advantageous for various important applications. In this paper, we reviewed the generation of ultra-intense and high charge electron beam based on laser-plasma acceleration and its nuclear applications in Shanghai Jiao Tong University, including the production of 10 s nC charge beams, the generation of ultra-high flux neutron source on the order of 1019 n/cm2/s, and the excitation of nuclear isomers with the peak efficiency on the order of 1015 particle/s. This laser driving ultra-dense electron source, in conjunction with the plasma environment, presents immense potential in addressing critical problems in astrophysics, and facilitating various nuclear applications. Based on above progress in nuclear astrophysics, a new research plateform about laboratory astrophysics with a 2.5 PW laser will be constructed in TDLI institute.

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