Simulation Study of an LWFA-based Electron Injector for AWAKE Run 2

Simulation Study of an LWFA-based Electron Injector for AWAKE Run 2

The AWAKE experiment aims to demonstrate preservation of injected electron beam quality during acceleration in proton-driven plasma waves. The short bunch duration required to correctly load the wakefield is challenging to meet with the current electron injector system, given the space available to...

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Bibliographic Details
Main Authors: Williamson, Barney, Xia, Guoxing, Doebert, Steffen, Karsch, Stefan, Muggli, Patric
Format: Journal Article
Language:English
Published: 01-12-2017
Subjects:
Physics - Accelerator Physics
Physics - Plasma Physics
Online Access:Get full text
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Summary:The AWAKE experiment aims to demonstrate preservation of injected electron beam quality during acceleration in proton-driven plasma waves. The short bunch duration required to correctly load the wakefield is challenging to meet with the current electron injector system, given the space available to the beamline. An LWFA readily provides short-duration electron beams with sufficient charge from a compact design, and provides a scalable option for future electron acceleration experiments at AWAKE. Simulations of a shock-front injected LWFA demonstrate a 43 TW laser system would be sufficient to produce the required charge over a range of energies beyond 100 MeV. LWFA beams typically have high peak current and large divergence on exiting their native plasmas, and optimisation of bunch parameters before injection into the proton-driven wakefields is required. Compact beam transport solutions are discussed.
DOI:10.48550/arxiv.1712.00255