Design of 6 MeV X-band electron linac for dual-head gantry radiotherapy system

Seung wook Shin; Seung Hyun Lee; Jong Chul Lee; Huisu Kim; Donghyup Ha; Mitra Ghergherehchi; Jongseo Chai; Byung no Lee; Moonsik Chae

doi:10.3938/jkps.71.1048

Design of 6 MeV X-band electron linac for dual-head gantry radiotherapy system

Seung wook Shin
, Seung Hyun Lee
, Jong Chul Lee
, Huisu Kim
, Donghyup Ha
, Mitra Ghergherehchi
, Jongseo Chai
, Byung no Lee
, Moonsik Chae

Department of Electronic and Electrical Engineering

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

A compact 6 MeV electron linac is being developed at Sungkyunkwan University, in collaboration with the Korea atomic energy research institute (KAERI). The linac will be used as an X-ray source for a dual-head gantry radiotherapy system. X-band technology has been employed to satisfy the size requirement of the dual-head gantry radiotherapy machine. Among the several options available, we selected a pi/2-mode, standing-wave, side-coupled cavity. This choice of radiofrequency (RF) cavity design is intended to enhance the shunt impedance of each cavity in the linac. An optimum structure of the RF cavity with a high-performance design was determined by applying a genetic algorithm during the optimization procedure. This paper describes the detailed design process for a single normal RF cavity and the entire structure, including the RF power coupler and coupling cavity, as well as the beam dynamics results.

Original language	English
Pages (from-to)	1048-1055
Number of pages	8
Journal	Journal of the Korean Physical Society
Volume	71
Issue number	12
DOIs	https://doi.org/10.3938/jkps.71.1048
State	Published - 1 Dec 2017

Keywords

Electron linac
Genetic algorithm
RF cavity
X-band

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10.3938/jkps.71.1048

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title = "Design of 6 MeV X-band electron linac for dual-head gantry radiotherapy system",

abstract = "A compact 6 MeV electron linac is being developed at Sungkyunkwan University, in collaboration with the Korea atomic energy research institute (KAERI). The linac will be used as an X-ray source for a dual-head gantry radiotherapy system. X-band technology has been employed to satisfy the size requirement of the dual-head gantry radiotherapy machine. Among the several options available, we selected a pi/2-mode, standing-wave, side-coupled cavity. This choice of radiofrequency (RF) cavity design is intended to enhance the shunt impedance of each cavity in the linac. An optimum structure of the RF cavity with a high-performance design was determined by applying a genetic algorithm during the optimization procedure. This paper describes the detailed design process for a single normal RF cavity and the entire structure, including the RF power coupler and coupling cavity, as well as the beam dynamics results.",

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AU - Shin, Seung wook

AU - Lee, Seung Hyun

AU - Lee, Jong Chul

AU - Kim, Huisu

AU - Ha, Donghyup

AU - Ghergherehchi, Mitra

AU - Chai, Jongseo

AU - Lee, Byung no

AU - Chae, Moonsik

PY - 2017/12/1

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N2 - A compact 6 MeV electron linac is being developed at Sungkyunkwan University, in collaboration with the Korea atomic energy research institute (KAERI). The linac will be used as an X-ray source for a dual-head gantry radiotherapy system. X-band technology has been employed to satisfy the size requirement of the dual-head gantry radiotherapy machine. Among the several options available, we selected a pi/2-mode, standing-wave, side-coupled cavity. This choice of radiofrequency (RF) cavity design is intended to enhance the shunt impedance of each cavity in the linac. An optimum structure of the RF cavity with a high-performance design was determined by applying a genetic algorithm during the optimization procedure. This paper describes the detailed design process for a single normal RF cavity and the entire structure, including the RF power coupler and coupling cavity, as well as the beam dynamics results.

AB - A compact 6 MeV electron linac is being developed at Sungkyunkwan University, in collaboration with the Korea atomic energy research institute (KAERI). The linac will be used as an X-ray source for a dual-head gantry radiotherapy system. X-band technology has been employed to satisfy the size requirement of the dual-head gantry radiotherapy machine. Among the several options available, we selected a pi/2-mode, standing-wave, side-coupled cavity. This choice of radiofrequency (RF) cavity design is intended to enhance the shunt impedance of each cavity in the linac. An optimum structure of the RF cavity with a high-performance design was determined by applying a genetic algorithm during the optimization procedure. This paper describes the detailed design process for a single normal RF cavity and the entire structure, including the RF power coupler and coupling cavity, as well as the beam dynamics results.

KW - Electron linac

KW - Genetic algorithm

KW - RF cavity

KW - X-band

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JO - Journal of the Korean Physical Society

JF - Journal of the Korean Physical Society

IS - 12

ER -

Design of 6 MeV X-band electron linac for dual-head gantry radiotherapy system

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Keywords

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