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Optimization of laser-plasma injector via beam loading effects using ionization-induced injection

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arxiv 1711.01613 v1 pith:YL253MS3 submitted 2017-11-05 physics.plasm-ph physics.acc-ph

Optimization of laser-plasma injector via beam loading effects using ionization-induced injection

classification physics.plasm-ph physics.acc-ph
keywords densityplasmabeamelectronlaserprofileconcentrationconfiguration
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Simulations of ionization induced injection in a laser driven plasma wakefield show that high-quality electron injectors in the 50-200 MeV range can be achieved in a gas cell with a tailored density profile. Using the PIC code Warp with parameters close to existing experimental conditions, we show that the concentration of $\mathrm{N_2}$ in a hydrogen plasma with a tailored density profile is an efficient parameter to tune electron beam properties through the control of the interplay between beam loading effects and varying accelerating field in the density profile. For a given laser plasma configuration, with moderate normalized laser amplitude, $a_0=1.6$ and maximum electron plasma density, $n_{e0}=4\times 10^{18}\,\mathrm{cm^{-3}}$, the optimum concentration results in a robust configuration to generate electrons at 150~MeV with a rms energy spread of 4\% and a spectral charge density of 1.8~pC/MeV.

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