The design of a five-cell high-current superconducting cavity

Energy recovery linacs are promising for achieving high average current with superior beam quality.The key component for accelerating such high-current beams is the superconducting radio-frequency cavity.The design of a 1.3 GHz five-cell high-current superconducting cavity has been carried out under...

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Published inChinese physics C Vol. 36; no. 1; pp. 74 - 79
Main Author 李永明 朱凤 全胜文 Ali Nassiri 刘克新
Format Journal Article
LanguageEnglish
Published IOP Publishing 2012
Subjects
Argon
Beams (radiation)
Cooperation
Damping
Energy recovery
Holes
Peking
Superconductivity
光束质量
单元
国家实验室
无线电频率
直线加速器
设计
超导腔
高电流
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ISSN1674-1137
0254-3052
2058-6132
DOI10.1088/1674-1137/36/1/013

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Summary:Energy recovery linacs are promising for achieving high average current with superior beam quality.The key component for accelerating such high-current beams is the superconducting radio-frequency cavity.The design of a 1.3 GHz five-cell high-current superconducting cavity has been carried out under cooperation between Peking University and the Argonne National Laboratory.The radio-frequency properties,damping of the higher order modes,multipacting and mechanical features of this cavity have been discussed and the final design is presented.
Bibliography:Energy recovery linacs are promising for achieving high average current with superior beam quality.The key component for accelerating such high-current beams is the superconducting radio-frequency cavity.The design of a 1.3 GHz five-cell high-current superconducting cavity has been carried out under cooperation between Peking University and the Argonne National Laboratory.The radio-frequency properties,damping of the higher order modes,multipacting and mechanical features of this cavity have been discussed and the final design is presented.
11-5641/O4
high current; superconducting cavity; higher order modes
LI Yong-Ming 1 ZHU Feng 1;1) QUAN Sheng-Wen 1 Ali Nassiri 2 LIU Ke-Xin 1 1 State Key Laboratory of Nuclear Physics and Technology,Institute of Heavy Ion Physics,Peking University,Beijing 100871,China 2 Advanced Photon Source,Argonne National Laboratory,9700 S Cass Ave.,Argonne,IL 60439,USA
ObjectType-Article-2
SourceType-Scholarly Journals-1
ObjectType-Feature-1
content type line 23
ISSN:1674-1137
0254-3052
2058-6132
DOI:10.1088/1674-1137/36/1/013