Matter and Radiation at Extremes (Sep 2020)

Generation of highly-polarized high-energy brilliant γ-rays via laser-plasma interaction

  • Kun Xue,
  • Zhen-Ke Dou,
  • Feng Wan,
  • Tong-Pu Yu,
  • Wei-Min Wang,
  • Jie-Ru Ren,
  • Qian Zhao,
  • Yong-Tao Zhao,
  • Zhong-Feng Xu,
  • Jian-Xing Li

DOI
https://doi.org/10.1063/5.0007734
Journal volume & issue
Vol. 5, no. 5
pp. 054402 – 054402-8

Abstract

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The generation of highly polarized high-energy brilliant γ-rays via laser–plasma interaction is investigated in the quantum radiation-reaction regime. We employ a quantum electrodynamics particle-in-cell code to describe spin-resolved electron dynamics semiclassically and photon emission and polarization quantum mechanically in the local constant field approximation. As an ultrastrong linearly polarized (LP) laser pulse irradiates a near-critical-density (NCD) plasma followed by an ultrathin planar aluminum target, the electrons in the NCD plasma are first accelerated by the driving laser to ultrarelativistic energies and then collide head-on with the laser pulse reflected by the aluminum target, emitting brilliant LP γ-rays via nonlinear Compton scattering with an average polarization of about 70% and energy up to hundreds of MeV. Such γ-rays can be produced with currently achievable laser facilities and will find various applications in high-energy physics and laboratory astrophysics.