High Power Laser Science and Engineering, Volume. 9, Issue 1, 010000e5(2021)
Optical control of transverse motion of ionization injected electrons in a laser plasma accelerator On the Cover
Fig. 1. Experimental setup. (a) Laser intensity distribution measured in front of, at and behind, respectively, the focal spot in the case of a perfect focus situation. (b) Laser intensity distribution measured after adjusting the posture of the OAP mirror. (c) The top-view image of the plasma channel.
Fig. 2. Electron beam spatial distribution. The first three columns are driven by the asymmetrical focus, showing three different typical shapes. All of these electron beam profiles were acquired under the same experimental conditions. The last column is driven by the symmetrical focus. All of the angles refer to the included angle between the elliptical long axis and the horizontal axis.
Fig. 3. Deflected electron distributions and charges for five consecutive shots. The red numbers are the total charges for electron energy above 80 MeV. (a) Asymmetrical focus. (b) Symmetrical focus.
Fig. 4. Laser plasma wakefield acceleration in 3D-PIC simulations. (a), (b) The cross-sections of the plasma bubble in the
Fig. 5. Electron beam spots in 3D-PIC simulations. (a)–(c) Electron beam spots driven by a 45° slanted elliptical laser focus at different laser propagation distances (~485 μm, 685 μm and 885 μm) in nitrogen. (d) Corresponding to the case of the circular laser spot at a distance of ~885 μm. (e), (f) The phase spaces of the P
Fig. 6. Analysis of transverse force for the electrons in the plasma wakefield. (a), (d) The cross-sections of the plasma bubble corresponding to the circular spot and the elliptical spot, respectively. (b), (c) The transverse force in the directions of
Fig. 7. Trajectories of the electrons driven by (a) circular laser focus and (b) elliptical laser focus.
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Jie Feng, Yifei Li, Jinguang Wang, Dazhang Li, Changqing Zhu, Junhao Tan, Xiaotao Geng, Feng Liu, Liming Chen. Optical control of transverse motion of ionization injected electrons in a laser plasma accelerator[J]. High Power Laser Science and Engineering, 2021, 9(1): 010000e5
Category: Research Articles
Received: Jun. 28, 2020
Accepted: Dec. 10, 2020
Published Online: Feb. 8, 2021
The Author Email: Dazhang Li (lidz@iphy.ac.cn), Liming Chen (lmchen@sjtu.edu.cn)