Laser wakefield acceleration of electrons using Bessel–Gauss doughnut beams for accelerating beam guiding
Vidmantas Tomkus, Valdas Girdauskas, Mehdi Abedi‐Varaki, Gediminas Račiukaitis
Abstract
A high-intensity laser pulse propagating through a gas target disturbs the uniform plasma distribution. Plasma density structures, created by high-order Bessel–Gauss beams for guiding the accelerating Gaussian beam and laser wakefield acceleration of electrons, are analysed using Wake-T and Fourier–Bessel particle-in-cell (FBPIC) simulation tools. The use of Bessel–Gauss doughnut beams increases the acceleration distance and energy of accelerated electrons up to 2.3 times at a 2 mm distance relative to the Gaussian beam of the same intensity.
Topics & Concepts
PhysicsBessel functionAccelerationElectronLaserPlasmaAtomic physicsPlasma accelerationBeam (structure)OpticsClassical mechanicsQuantum mechanicsLaser-Plasma Interactions and DiagnosticsLaser-induced spectroscopy and plasmaLaser-Matter Interactions and Applications