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Main Authors: Maity, Srimanta, Mondal, Alamgir, Vishnyakov, Eugene, Molodozhentsev, Alexander
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2401.16082
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author Maity, Srimanta
Mondal, Alamgir
Vishnyakov, Eugene
Molodozhentsev, Alexander
author_facet Maity, Srimanta
Mondal, Alamgir
Vishnyakov, Eugene
Molodozhentsev, Alexander
contents Laser wakefield acceleration (LWFA) in a gas cell target separating injection and acceleration section has been investigated to produce high-quality electron beams. A detailed study has been performed on controlling the quality of accelerated electron beams using a combination of truncated ionization and density downramp injection mechanisms. For this purpose, extensive two-dimensional Particle-In-Cell (PIC) simulations have been carried out considering a gas cell target consisting of a hydrogen and nitrogen mixture in the first part and pure hydrogen in the second part. Such a configuration can be realized experimentally using a specially designed capillary setup. Using the parameters already available in the existing experimental setups, we show the generation of an electron beam with a peak energy of 500-600 MeV, relative energy spread less than 5%, normalized beam emittance around 1.5 mm-mrad, and beam charge of 2-5 pC/micrometer. Our study reveals that the quality of the accelerated electron beam can be independently controlled and manipulated through the beam loading effect by tuning the parameters, e.g., laser focusing position, nitrogen concentration, and gas target profile. These simulation results will be useful for future experimental campaigns on LWFA, particularly at ELI Beamlines.
format Preprint
id arxiv_https___arxiv_org_abs_2401_16082
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Parametric analysis of electron beam quality in laser wakefield acceleration based on the truncated ionization injection mechanism
Maity, Srimanta
Mondal, Alamgir
Vishnyakov, Eugene
Molodozhentsev, Alexander
Plasma Physics
Laser wakefield acceleration (LWFA) in a gas cell target separating injection and acceleration section has been investigated to produce high-quality electron beams. A detailed study has been performed on controlling the quality of accelerated electron beams using a combination of truncated ionization and density downramp injection mechanisms. For this purpose, extensive two-dimensional Particle-In-Cell (PIC) simulations have been carried out considering a gas cell target consisting of a hydrogen and nitrogen mixture in the first part and pure hydrogen in the second part. Such a configuration can be realized experimentally using a specially designed capillary setup. Using the parameters already available in the existing experimental setups, we show the generation of an electron beam with a peak energy of 500-600 MeV, relative energy spread less than 5%, normalized beam emittance around 1.5 mm-mrad, and beam charge of 2-5 pC/micrometer. Our study reveals that the quality of the accelerated electron beam can be independently controlled and manipulated through the beam loading effect by tuning the parameters, e.g., laser focusing position, nitrogen concentration, and gas target profile. These simulation results will be useful for future experimental campaigns on LWFA, particularly at ELI Beamlines.
title Parametric analysis of electron beam quality in laser wakefield acceleration based on the truncated ionization injection mechanism
topic Plasma Physics
url https://arxiv.org/abs/2401.16082