1. Evolution of relativistic electron vortices in laser plasmas
- Author
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Sergei V. Soloviev, Alexey R. Kniazev, S. Weber, Sergei V. Bulanov, Timur Zh. Esirkepov, Georg Korn, Kirill Lezhnin, and F. F. Kamenets
- Subjects
Physics ,Magnetism ,Radius ,Electron ,Plasma ,01 natural sciences ,010305 fluids & plasmas ,Magnetic field ,Vortex ,Ion ,Particle acceleration ,Physics::Plasma Physics ,Condensed Matter::Superconductivity ,0103 physical sciences ,Atomic physics ,010306 general physics - Abstract
Electron vortices appear in the wake of a finite length laser pulse propogating in the underdense plasma. Usually they form two chains of vortices with opposite signs of the magnetic fields locked inside an electron cavity. Using 2D PIC simulations, we discuss the effects of evolution of single and binary electron vortices. Single electron vortices, though being in a quasistationary state on electron timescales, evolve on ion timescales, leading to anisotropic multishell ion motion. Binary electron vortices may be subject to complex motions, which can be described by the point-vortex solutions of Hasegawa-Mima equation. When the finite radius effects come into play, we observe effects as magnetic field annihilation with the subsequent fast electron bunch generation and secondary vortex formation.
- Published
- 2017
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