Transfer line including vacuum differential system for a high-power windowless target

Transfer line including vacuum differential system for a high-power windowless target

As the highest power proton linear accelerator in continuous wave mode, China initiative Accelerator Driven sub-critical System linear accelerator will deliver 2.5 MW proton beam to the target inside the reactor. Vacuum transition from 5×10^{4}    Pa to several 10^{-6}  Pa is required at the acceler...

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Main Authors: Yuanshuai Qin, Peng Zhang, Hanjie Cai, Yaling Zhang, Huan Jia, Chenzhang Yuan, Yuan He, Junhui Zhang, Wenlong Zhan
Format: Article
Language:English
Published: American Physical Society 2020-11-01
Series:Physical Review Accelerators and Beams
Online Access:http://doi.org/10.1103/PhysRevAccelBeams.23.113002
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spelling doaj-7c7ff1bfc88c45858d3000ad0b84184a2020-11-25T04:11:10ZengAmerican Physical SocietyPhysical Review Accelerators and Beams2469-98882020-11-01231111300210.1103/PhysRevAccelBeams.23.113002Transfer line including vacuum differential system for a high-power windowless targetYuanshuai QinPeng ZhangHanjie CaiYaling ZhangHuan JiaChenzhang YuanYuan HeJunhui ZhangWenlong ZhanAs the highest power proton linear accelerator in continuous wave mode, China initiative Accelerator Driven sub-critical System linear accelerator will deliver 2.5 MW proton beam to the target inside the reactor. Vacuum transition from 5×10^{4}    Pa to several 10^{-6}  Pa is required at the accelerator to target section. A vacuum differential system located at the transfer line is designed to meet the requirement of the windowless target and upstream collimators are considered for power loss control in this paper. A vacuum test based on vacuum transition verifies that about 10 orders of magnitude vacuum transition could be achieved as required, and gas scattering simulation shows that the power loss and beam size increase are at an acceptable level before the last magnet.http://doi.org/10.1103/PhysRevAccelBeams.23.113002
collection DOAJ
language English
format Article
sources DOAJ
author Yuanshuai Qin
Peng Zhang
Hanjie Cai
Yaling Zhang
Huan Jia
Chenzhang Yuan
Yuan He
Junhui Zhang
Wenlong Zhan
spellingShingle Yuanshuai Qin
Peng Zhang
Hanjie Cai
Yaling Zhang
Huan Jia
Chenzhang Yuan
Yuan He
Junhui Zhang
Wenlong Zhan
Transfer line including vacuum differential system for a high-power windowless target
Physical Review Accelerators and Beams
author_facet Yuanshuai Qin
Peng Zhang
Hanjie Cai
Yaling Zhang
Huan Jia
Chenzhang Yuan
Yuan He
Junhui Zhang
Wenlong Zhan
author_sort Yuanshuai Qin
title Transfer line including vacuum differential system for a high-power windowless target
title_short Transfer line including vacuum differential system for a high-power windowless target
title_full Transfer line including vacuum differential system for a high-power windowless target
title_fullStr Transfer line including vacuum differential system for a high-power windowless target
title_full_unstemmed Transfer line including vacuum differential system for a high-power windowless target
title_sort transfer line including vacuum differential system for a high-power windowless target
publisher American Physical Society
series Physical Review Accelerators and Beams
issn 2469-9888
publishDate 2020-11-01
description As the highest power proton linear accelerator in continuous wave mode, China initiative Accelerator Driven sub-critical System linear accelerator will deliver 2.5 MW proton beam to the target inside the reactor. Vacuum transition from 5×10^{4}    Pa to several 10^{-6}  Pa is required at the accelerator to target section. A vacuum differential system located at the transfer line is designed to meet the requirement of the windowless target and upstream collimators are considered for power loss control in this paper. A vacuum test based on vacuum transition verifies that about 10 orders of magnitude vacuum transition could be achieved as required, and gas scattering simulation shows that the power loss and beam size increase are at an acceptable level before the last magnet.
url http://doi.org/10.1103/PhysRevAccelBeams.23.113002
work_keys_str_mv AT yuanshuaiqin transferlineincludingvacuumdifferentialsystemforahighpowerwindowlesstarget
AT pengzhang transferlineincludingvacuumdifferentialsystemforahighpowerwindowlesstarget
AT hanjiecai transferlineincludingvacuumdifferentialsystemforahighpowerwindowlesstarget
AT yalingzhang transferlineincludingvacuumdifferentialsystemforahighpowerwindowlesstarget
AT huanjia transferlineincludingvacuumdifferentialsystemforahighpowerwindowlesstarget
AT chenzhangyuan transferlineincludingvacuumdifferentialsystemforahighpowerwindowlesstarget
AT yuanhe transferlineincludingvacuumdifferentialsystemforahighpowerwindowlesstarget
AT junhuizhang transferlineincludingvacuumdifferentialsystemforahighpowerwindowlesstarget
AT wenlongzhan transferlineincludingvacuumdifferentialsystemforahighpowerwindowlesstarget
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