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The acceleration of high-energy ions by the interaction of plasma with ultra-intense laser pulses is a frontier in the fields of laser plasma physics and accelerator physics. Laser-driven ion acceleration has achieved great success and triggered plenty of new applications after nearly twenty years’ development. This paper reviews the important experimental progress of laser-driven high-energy proton acceleration, discusses some critical issues that influence the acceleration. It also gives an introduction to new acceleration schemes developed in recent years, which promise to generate over 200 MeV protons.
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Keywords:
- laser-drive ion acceleration /
- laser-driven acceleration experimental results /
- laser-driven acceleration schemes /
- laser plasma accelerator
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图 4 RPA机制所获得的高能质子加速结果 (a) 飞秒激光加速最高能量与光强的关系[74]; (b) 皮秒激光质子加速能谱[16]
Figure 4. Experimental results of laser-driven high-power protons in RPA regime: (a) Maximum proton energy as a function of on-target intensity of the femtosecond laser pulses[74]; (b) energy spectrum of protons employing picosecond laser pulses[16].
图 13 螺线管级联加速实验及模拟结果[119] (a) 质子能谱分布; (b) 质子束三维分布; (c) 两次级联加速模拟结果
Figure 13. Experimental and simulated results of post-acceleration using helical coils[119]: (a) Proton spectrum with and without the helical coils; (b) spatial profile of the ion beams; (c) proton spectra of the input proton source, after the single-stage and after the double-stage post acceleration.
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