Physical Review Research (Jul 2023)

Nonlinear electronic stopping of negatively charged particles in liquid water

  • Natalia E. Koval,
  • Fabiana Da Pieve,
  • Bin Gu,
  • Daniel Muñoz-Santiburcio,
  • Jorge Kohanoff,
  • Emilio Artacho

DOI
https://doi.org/10.1103/PhysRevResearch.5.033063
Journal volume & issue
Vol. 5, no. 3
p. 033063

Abstract

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We present real-time time-dependent density-functional-theory calculations of the electronic stopping power for negative and positive projectiles (electrons, protons, antiprotons, and muons) moving through liquid water. After correction for finite mass effects, the nonlinear stopping power obtained in this paper is significantly different from the previously known results from semiempirical calculations based on the dielectric response formalism. Linear-nonlinear discrepancies are found both in the maximum value of the stopping power and the Bragg peak's position. Our results indicate the importance of the nonlinear description of electronic processes, particularly, for electron projectiles, which are modeled here as classical point charges. Our findings also confirm the expectation that the quantum nature of the electron projectile should substantially influence the stopping power around the Bragg peak and below.