Abstract
By controlling electron injection into the second period of the laser-driven wakefield in a downward density ramp, a high-quality low-energy electron beam can be accelerated in a short segment of high-density plasma. After a second downward density ramp followed by a low-density plasma plateau, the pre-accelerated electron beam can be seeded into the first period of the laser-driven wakefield for cascaded acceleration at an optimized phase. A monoenergetic electron beam with peak energy of ∼1.2 GeV can be generated from plasma with a length of 12 mm and density of 9 × 1017 cm−3, driven by a laser pulse with peak power of 77 TW. By modifying the acceleration stage comprising several density-ascending plasma segments, the peak energy of the quasi-monoenergetic electron beam can be efficiently increased by about 50% via a quasi-phase-stable multiple-cascade acceleration scheme.
Highlights
Laser plasma acceleration has attracted great interest since Tajima and Dawson proposed the idea of the laser wakefield accelerator (LWFA) in 1979 [1]
We propose a new scheme by controlling the electron injection process in the second period of the laser-driven wakefield during a downward density ramp
We have proposed a new scheme for controlling the electron injection process in the second period of the laserdriven wakefield via a downward density ramp
Summary
Content from this work may be used under the terms of the Creative Commons Attribution 3.0 licence. Zhijun Zhang1, Jiansheng Liu1,3, Wentao Wang1, Wentao Li1, Changhai Yu1, Ye Tian1, Rong Qi1, Cheng Wang1, Zhiyong Qin1, Ming Fang1, Jiaqi Liu1, Kazuhisa Nakajima2, Ruxin Li1 and Zhizhan Xu1 Any further distribution of Keywords: cascaded laser wakefield accelerator, second wakefield period, electron seeding, density ramp, phase-stable acceleration this work must maintain attribution to the author(s) and the title of the work, journal citation and DOI.
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