| Published Articles | |
| Title | Beam-induced wakefield observation in X -band choke-mode cavities |
| Author(s) | Zha, Hao (Tsinghua U., Beijing ; Argonne, HEP ; CERN) ; Jing, Chunguang (Argonne, HEP ; Euclid Techlabs, Solon) ; Qiu, Jiaqi (Argonne, HEP ; Euclid Techlabs, Solon) ; Wisniewski, Eric E (Argonne, HEP) ; Conde, Manoel (Argonne, HEP) ; Power, John G (Argonne, HEP) ; Doran, Darrell S (Argonne, HEP) ; Liu, Wanming (Argonne, HEP) ; Shi, Jiaru (Tsinghua U., Beijing ; CERN) ; Li, Chen (Tsinghua U., Beijing ; Argonne, HEP) ; Gai, Wei (Tsinghua U., Beijing ; Argonne, HEP) ; Chen, Huaibi (Tsinghua U., Beijing) |
| Publication | 2016 |
| Number of pages | 9 |
| In: | Phys. Rev. Accel. Beams 19 (2016) 081001 |
| DOI | 10.1103/PhysRevAccelBeams.19.081001 |
| Subject category | Accelerators and Storage Rings |
| Abstract | The X-band choke-mode structure is currently being studied as an alternative design for the accelerating structure of the compact linear collider (CLIC) main linac. The geometry of the choke-mode structure is designed to ensure the strong suppression of the beam-induced long-range transverse wakefield and therefore maintain the stability and quality of the beam in the CLIC main linac. Experiments conducted at the Argonne Wakefield Accelerator Facility are presented in this study to verify the design of the wakefield suppressor. The beam-induced radio frequency (rf) signals in a three-cell choke-mode structure were measured, and measured results show good agreement with the simulation results. The measured results also show strong damping in high-order dipolar modes with a quality factor Q of 10 to 20. The difference between the frequencies of the first and second dipole modes is about 3 GHz, which validates the special design of the cancelling dipole modes at the time of the succeeding bunch (0.5 ns). |
| Copyright/License | CC-BY-3.0 Publication: © 2016-2024 authors |
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Journalen skapades 2017-05-03, och modifierades senast 2021-05-03