A Pulsed Synchronous Linear Accelerator for Low-Energy Proton

Yi Shen; Yi Liu; Pan Dong; Mao Ye; Huang Zhang; Liansheng Xia; Jinshui Shi; Jianjun Deng; Daniele Margarone

doi:10.1155/2022/2836767

Journals >Laser and Particle Beams >Volume 2022 >Issue 1 >Page 2836767 > Article

Laser and Particle Beams
Vol. 2022, Issue 1, 2836767 (2022)

A Pulsed Synchronous Linear Accelerator for Low-Energy Proton

Yi Shen, Yi Liu, Pan Dong, Mao Ye, Huang Zhang, Liansheng Xia, Jinshui Shi, Jianjun Deng, and Daniele Margarone

Author Affiliations

Institute of Fluid Physics China Academy of Engineering Physics P.O. Box 919-106 Mianyang 621900 China

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DOI: 10.1155/2022/2836767 Cite this Article

Yi Shen, Yi Liu, Pan Dong, Mao Ye, Huang Zhang, Liansheng Xia, Jinshui Shi, Jianjun Deng, Daniele Margarone. A Pulsed Synchronous Linear Accelerator for Low-Energy Proton[J]. Laser and Particle Beams, 2022, 2022(1): 2836767 Copy Citation Text

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Abstract

A low-energy proton accelerator named pulsed synchronous linear accelerator (PSLA) is proposed and developed at the Institute of Fluid Physics, which is driven by unipolar-pulsed high voltages. Pulsed-accelerating electric fields and low-energy ion beams are precisely synchronized on temporal and spatial positions for continuous acceleration. The operating mode and the features of the PSLA are introduced. At present, the feasibility of a low-energy proton PSLA has been verified in principle. An average accelerating gradient up to 3 MV/m for protons is achieved.

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