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Laser-plasma electron accelerator for all-optical inverse Compton X-ray source

✍ Scribed by K. Koyama; A. Yamazaki; A. Maekawa; M. Uesaka; T. Hosokai; M. Miyashita; S. Masuda; E. Miura

Publisher: Elsevier Science
Year: 2009
Tongue: English
Weight: 204 KB
Volume: 608
Category: Article
ISSN: 0168-9002
DOI: 10.1016/j.nima.2009.05.142

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✦ Synopsis

Inverse Compton scattering has been gaining attention as a process for the generation of X=g-ray, since it produces tunable X=g-ray pulses with a small cone angle of radiation. A table-top tunable Compton X=g-ray source would be realized by replacing a radio frequency (rf) linac with a laser wakefield accelerator (LWFA), which is one of the advanced accelerators. An empirical scaling law for the LWFA in the self-injection mode showed that the energy gain was inversely proportional to the plasma density. In order to effectively employ the LWFA as a Compton X=g-ray source, its stability must be improved. For this purpose, we are developing techniques for the injection of initial electrons by a localized wavebreaking at the density ramp of a plasma. The pointing stability and acceleration efficiency of the electron beam were significantly improved by applying an axial magnetic field to the plasma channel.

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