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Forward sliding-swing acceleration of electrons in combined high-power laser and self-generated mega-tesla magnetic fields (Conference Presentation)
Author(s): Felix Mackenroth; Zheng Gong; Toma Toncian; Alex Arefiev
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Paper Abstract

A high-power laser pulse guided through a relativistically underdense plasma channel generates a strong quasistatic magnetic field, confining the transverse motion of electrons inside the channel. This confinement allows the laser field to efficiently accelerate electrons transversely which are then deflected in forward direction and collimated by the channel's magnetic field, establishing the novel forward-sliding swing acceleration (FSSA) mechanism. Its advantage is a threshold behaviour, yielding high electron energies for sufficiently strong laser fields or initial electron momenta, regardless of a fine-tuned resonance. The achievable electron energies are demonstrated to be two orders of magnitude higher than the vacuum limit of direct laser acceleration. We study the electrons' dynamics by a simplified model analytically and confirm this model's predictions by numerical simulations. Specifically, we derive and confirm simple relations between the channel's magnetic field strength, the particles' initial transverse momenta and the laser's field strength indicating in what parameter regimes high electron energies can be achieved.

Paper Details

Date Published: 14 May 2019
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Proc. SPIE 11037, Laser Acceleration of Electrons, Protons, and Ions V, 110370L (14 May 2019); doi: 10.1117/12.2520811
Show Author Affiliations
Felix Mackenroth, Max-Planck-Institut für Physik komplexer Systeme (Germany)
Zheng Gong, The Univ. of Texas at Austin (United States)
Toma Toncian, Helmholtz-Zentrum Dresden-Rossendorf e. V. (Germany)
Alex Arefiev, Univ. of California, San Diego (United States)


Published in SPIE Proceedings Vol. 11037:
Laser Acceleration of Electrons, Protons, and Ions V
Eric Esarey; Carl B. Schroeder; Jörg Schreiber, Editor(s)

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