To the Acceleration of Charged Particles with Travelling Laser Focus
Alexander Mikhailichenko

TL;DR
This paper presents calculations of wake-fields in micro-structures illuminated by swept laser pulses, proposing a novel laser sweeping scheme for efficient charged particle acceleration in future colliders.
Contribution
It introduces a new laser sweeping technique that localizes excitation in micro-structures for particle acceleration, supported by simulation results.
Findings
Simulation shows effective wake-field generation with swept laser pulses.
The scheme enables localized excitation of micro-structure cells.
Potential for collider applications in near-future accelerator technology.
Abstract
We describe here the latest results of calculations with FlexPDE code of wake-fields induced by the bunch in micro-structures. These structures, illuminated by swept laser bust, serve for acceleration of charged particles. The basis of the scheme is a fast sweeping device for the laser bunch. After sweeping, the laser bunch has a slope ~45o with respect to the direction of propagation. So the every cell of the microstructure becomes excited locally only for the moment when the particles are there. Self-consistent parameters of collider based on this idea allow consideration this type of collider as a candidate for the near-future accelerator era.
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Taxonomy
TopicsPulsed Power Technology Applications · Laser-Plasma Interactions and Diagnostics · Gyrotron and Vacuum Electronics Research
