Developing a 50 MeV LPA-based Injector at ATHENA for a Compact Storage Ring

arXiv: Accelerator Physics Pub Date : 2021-06-21 DOI:10.5445/IR/1000134508

E. Panofski, Cora Braun, E. Bründermann, Julian Dirkwinkel, T. Eichner, B. Härer, T. Hülsenbusch, L. Hübner, S. Jalas, L. Jeppe, M. Kaluza, M. Kirchen, Andreas Maier, P. Messner, Anke-Susanne Müller, J. Osterhoff, G. Palmer, T. Parikh, A. Sävert, M. Schnepp, M. Trunk, P. A. Walker, C. Werle, C. Widmann, P. Winkler

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引用次数: 6

Abstract

The laser-driven generation of relativistic electron beams in plasma and their acceleration to high energies with GV/m-gradients has been successfully demonstrated. Now, it is time to focus on the application of laser-plasma accelerated (LPA) beams. The "Accelerator Technology HElmholtz iNfrAstructure" (ATHENA) of the Helmholtz Association fosters innovative particle accelerators and high-power laser technology. As part of the ATHENAe pillar several different applications driven by LPAs are to be developed, such as a compact FEL, medical imaging and the first realization of LPA-beam injection into a storage ring. The latter endeavour is conducted in close collaboration between Deutsches Elektronen-Synchrotron (DESY), Karlsruhe Institute of Technology (KIT) and Helmholtz Institute Jena (HIJ). In the cSTART project at KIT, a compact storage ring optimized for short bunches and suitable to accept LPA-based electron bunches is in preparation. In this conference contribution we will introduce the 50 MeV LPA-based injector and give an overview about the project goals. The key parameters of the plasma injector will be presented. Finally, the current status of the project will be summarized.

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在ATHENA为紧凑型存储环开发50 MeV lpa注入器

成功地证明了等离子体中激光驱动的相对论电子束的产生及其以GV/m梯度加速到高能。现在，重点讨论激光等离子体加速(LPA)光束的应用。亥姆霍兹协会的“加速器技术亥姆霍兹基础设施”(ATHENA)致力于培育创新的粒子加速器和高功率激光技术。作为ATHENAe支柱的一部分，将开发由lpa驱动的几种不同应用，例如紧凑型自由电子激光器、医学成像和首次实现lpa光束注入存储环。后一项努力是在德国电子同步加速器(DESY)、卡尔斯鲁厄理工学院(KIT)和耶拿亥姆霍兹研究所(HIJ)的密切合作下进行的。在KIT的cSTART项目中，一个紧凑的存储环优化了短束，适合接受基于lpa的电子束。在本次会议的贡献中，我们将介绍基于50 MeV lpa的注入器，并概述项目目标。介绍了等离子体注入器的关键参数。最后对项目的现状进行总结。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv: Accelerator Physics

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