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Ultrahigh-brightness 50 MeV electron beam generation from laser wakefield acceleration in a weakly nonlinear regimeOA

中文摘要

We propose an efficient scheme to produce ultrahigh-brightness tens of MeV electron beams by designing a density-tailored plasma to induce a wakefield in the weakly nonlinear regime with a moderate laser energy of 120 mJ.In this scheme,the second bucket of the wakefield can have a much lower phase velocity at the steep plasma density down-ramp than the first bucket and can be exploited to implement longitudinal electron injection at a lower laser intensity,leading to the generation of bright electron beams with ultralow emittance together with low energy spread.Three-dimensional particle-in-cell simulations are carried out and demonstrate that high-quality electron beams with a peak energy of 50 MeV,ultralow emittance of28 nm rad,energy spread of 1%,charge of 4.4 pC,and short duration less than 5 fs can be obtained within a 1-mm-long tailored plasma density,resulting in an ultrahigh six-dimensional brightness B6D,n of2×1017 A/m2/0.1%.By changing the density parameters,tunable bright electron beams with peak energies ranging from 5 to 70 MeV,a small emittance of B0.1 mm mrad,and a low energy spread at a few-percent level can be obtained.These bright MeV-class electron beams have a variety of potential applications,for example,as ultrafast electron probes for diffraction and imaging,in laboratory astrophysics,in coherent radiation source generation,and as injectors for GeV particle accelerators.

Zhongtao Xiang;Changhai Yu;Zhiyong Qin;Xuhui Jiao;Jiahui Cheng;Qiaoxuan Zhou;Gatie Axi;Jianghua Jie;Ya Huang;Jintan Cai;Jiansheng Liu;

Department of Physics,Shanghai Normal University,Shanghai 200234,China

物理学

weaklynonlinearacceleration

《Matter and Radiation at Extremes》 2024 (003)

P.4-10 / 7

This work was supported by the National Natural Science Foundation of China(Grant Nos.11974251,12105180,12074397,11904377,and 12005137);the Innovation Program of Shanghai Municipal Education Commission(Grant No.2021-01-07-00-02-E00118);the National Key Research and Development Program(Grant No.2023YFA1406804).

10.1063/5.0189460

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