25–30 Aug 2024
Hilton Chicago
America/Chicago timezone

High Q and high gradient performance of the first medium-temperature baking 1.3 GHz cryomodule

MOPB072
26 Aug 2024, 16:00
2h
Boulevard (Hilton Chicago)

Boulevard

Hilton Chicago

720 South Michigan Ave Chicago, IL 60605 USA
Poster Presentation MC4.8 Superconducting RF Monday Poster Session

Speaker

Prof. Jiyuan Zhai (Institute of High Energy Physics)

Description

The world’s first 1.3 GHz cryomodule containing eight 9-cell superconducting radio-frequency (RF) cavities treated by medium-temperature furnace baking (mid-T bake) was developed, assembled and tested at the Institute of High Energy Physics (IHEP), Chinese Academy of Sciences for the Dalian Advanced Light Source (DALS). The 9-cell cavities in the cryomodule achieved an unprecedented high average intrinsic quality factor (Q0) of 3.8E10 at 16 MV/m and 3.6E10 at 21 MV/m in the horizontal test. The cryomodule can operate stably up to a total continuous wave (CW) RF voltage greater than 191 MV, with an average cavity usable accelerating gradient of more than 23 MV/m. The results significantly exceed the specifications of DALS and the other high repetition rate free electron laser facilities (LCLS-II, LCLS-II-HE, SHINE, S3FEL etc.). This paper reviews the cryomodule performance and discusses some important issues in cryomodule assembly and testing.

Primary author

Prof. Jiyuan Zhai (Institute of High Energy Physics)

Co-authors

Feisi He (Institute of High Energy Physics) Haiying Lin (Institute of High Energy Physics) Peng Sha (Institute of High Energy Physics) Qunyao Wang (Institute of High Energy Physics) Rui Ge (Institute of High Energy Physics) Ruixiong Han (Institute of High Energy Physics) Song Jin (Institute of High Energy Physics) Weimin Pan (Chinese Academy of Sciences) Zheng Mi (Chinese Academy of Sciences)

Presentation materials

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