Scientific Reports (Jan 2023)

Characterization of relativistic electron–positron beams produced with laser-accelerated GeV electrons

  • Hoon Song,
  • Chul Min Kim,
  • Junho Won,
  • Jaehyun Song,
  • Seongmin Lee,
  • Chang-Mo Ryu,
  • Woosuk Bang,
  • Chang Hee Nam

DOI
https://doi.org/10.1038/s41598-023-27617-0
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 9

Abstract

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Abstract The characterization of an electron–positron beam generated from the interaction of a multi-GeV electron beam with a lead plate is performed using GEANT4 simulations. The dependence of the positron beam size on driver electron beam energy and lead converter thickness is investigated in detail. A pancake-like positron beam structure is generated with a monoenergetic multi-GeV driver electron beam, with the results indicating that a 5 GeV driver electron beam with 1 nC charge can generate a positron beam with a density of 1015–1016 cm−3 at one radiation length of lead. In addition, we find that electron–positron beams generated using above-GeV electron beams have neutralities greater than 0.3 at one radiation length of lead, whereas neutralities of 0.2 are observed when using a 200 MeV electron beam. The possibility of observing plasma instabilities in experiments is also examined by comparing the plasma skin depth with the electron–positron beam size. A quasi-neutral electron–positron plasma can be produced in the interaction between a 1 nC, 5 GeV electron beam and lead with a thickness of five radiation lengths. Our findings will aid in analyzing and interpreting laser-produced electron–positron plasma for laboratory astrophysics research.