The design and development of a 6 MeV X-band on-axis coupling standing wave linear accelerator

On the basis of an X-band 2 MeV on-axis standing wave electron linear accelerator, we design and develop a 6 MeV X-band on-axis SW accelerating guide that has higher effective shunt impedance. The phase-focusing and asymmetrical cell geometry in the first cavity techniques are used. The non-linearit...

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Main Authors: Xiang Sun, Dechun Tong, Qingxiu Jin, Yuzheng Lin, Jingqing Sun, Shaoguang Hu, Bingyi Chen, Baoyu Sun, Yang Zou
Format: Conference Proceeding
Language:English
Subjects:
Acceleration
Biomedical applications of radiation
Geometry
Impedance
Life estimation
Linear accelerators
Particle beams
Radio frequency
Sun
Testing
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container_end_page 3902 vol.5
container_issue
container_start_page 3900
container_title
container_volume 5
creator Xiang Sun
Dechun Tong
Qingxiu Jin
Yuzheng Lin
Jingqing Sun
Shaoguang Hu
Bingyi Chen
Baoyu Sun
Yang Zou
description On the basis of an X-band 2 MeV on-axis standing wave electron linear accelerator, we design and develop a 6 MeV X-band on-axis SW accelerating guide that has higher effective shunt impedance. The phase-focusing and asymmetrical cell geometry in the first cavity techniques are used. The non-linearity of RF fields in the accelerating guide is considered. The design parameters of the accelerating guide, magnetron and thermionic cathode are described. This accelerator system operates in /spl pi//2 mode and its frequency is 9300 MHz. A prototype 376 mm long structure has been machined, brazed and sealed, and tested.
doi_str_mv 10.1109/PAC.2001.988291
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source IEEE Electronic Library (IEL) Conference Proceedings
subjects Acceleration
Biomedical applications of radiation
Geometry
Impedance
Life estimation
Linear accelerators
Particle beams
Radio frequency
Sun
Testing
title The design and development of a 6 MeV X-band on-axis coupling standing wave linear accelerator
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