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Laser-driven plasma acceleration in a regime of strong-mismatch between the incident laser envelope and the nonlinear plasma response

Authors :
Sahai, A. A.
Poder, K.
Wood, J. C.
Cole, J. M.
Lopes, N. C.
Mangles, S. P. D.
Najmudin, Z.
Publication Year :
2017
Publisher :
arXiv, 2017.

Abstract

We explore a regime of laser-driven plasma acceleration of electrons where the radial envelope of the laser-pulse incident at the plasma entrance is strongly mismatched to the nonlinear plasma electron response excited by it. This regime has been experimentally studied with the gemini laser using f/40 focusing optics in August 2015 and f/20 in 2008. The physical mechanisms and the scaling laws of electron acceleration achievable in a laser-plasma accelerator have been studied in the radially matched laser regime and thus are not accurate in the strongly mismatched regime explored here. In this work, we show that a novel adjusted-a0 model applicable over a specific range of densities where the laser enters the state of a strong optical shock, describes the mismatched regime. Beside several novel aspects of laser-plasma interaction dynamics relating to an elongating bubble shape and the corresponding self-injection mechanism, importantly we find that in this strongly mismatched regime when the laser pulse transforms into an optical shock it is possible to achieve beam-energies that significantly exceed the incident intensity matched regime scaling laws.<br />Comment: Theory paper explaining the strongly mis-matched regime of LWFA and proving that there are several advantages to using such a regime over the perfectly matched regime of LWFA which has been so far considered to be the optimum for LWFA. Rutherford Appleton Lab (RAL) - Central Laser Facility (CLF) - 2017 Annual report contribution

Details

Database :
OpenAIRE
Accession number :
edsair.doi.dedup.....f81d2506a76029f85dc87997ca64ddaa
Full Text :
https://doi.org/10.48550/arxiv.1704.02913