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Optimization of electron bunch quality using a chirped laser pulse in laser wakefield acceleration

Arohi Jain, Devki Nandan Gupta

2021Physical Review Accelerators and Beams22 citationsDOIOpen Access PDF

Abstract

In this work, we perform particle-in-cell simulations to investigate the electron bunch quality using a chirped laser pulse in a laser wakefield acceleration mechanism. Particular attention is devoted to the electron beam quality improvement using a chirped laser pulse through group delay dispersion. By adjusting the value of group delay dispersion, the electron beam quality was controlled and improved in the range: charge (31--325 pC), energy (240--485 MeV), energy spread (2.1%--12.5%), and bunch duration (3.3--17 fs). The electron bunch charge highly depends on the chirping of the laser pulse. We anticipate that the ultrashort sub-GeV electron bunch generated in the laser wakefield acceleration mechanism using chirped laser pulses may be crucial in developing free-electron laser-based compact radiation sources.

Topics & Concepts

LaserPhysicsUltrashort pulseElectronChirpLaser beam qualityOpticsUltrafast laser spectroscopyPulse (music)AccelerationPlasma accelerationPulse durationDispersion (optics)Cathode rayFemtosecond pulse shapingAtomic physicsLaser beamsNuclear physicsDetectorClassical mechanicsLaser-Plasma Interactions and DiagnosticsAdvanced X-ray Imaging TechniquesLaser-Matter Interactions and Applications
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