Speaker
Dinghui Su
(Shanghai Institute of Applied Physics)
Description
Beam lengthening is significant for improving the beamlife of storage rings. Based on the previously proposed design of a room temperature conducting bimodal RF cavity, we conducted relevant dynamic simulations. The results showed that in a simulated storage ring lattice with the beam energy of 2 GeV and the synchronous radiation energy of 0.0356 MeV, the bimodal cavity realizes a same bunch-lengthening performance that is comparable to the double RF system composed of a main high-frequency cavity and a third harmonic cavity. This works provides reference materials for the design of bimodal cavities and provides strong support for application.
Region represented | Asia |
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Primary author
Dinghui Su
(Shanghai Institute of Applied Physics)
Co-authors
Wencheng Fang
(Shanghai Synchrotron Radiation Facility)
Jianhao Tan
(Shanghai Advanced Research Institute)
Cheng Wang
(Shanghai Synchrotron Radiation Facility)
Yixing Lu
(Shanghai Synchrotron Radiation Facility)
Hanyu Gong
(Shanghai Institute of Applied Physics)
Yusen Guo
(ShanghaiTech University)
Zihe Gao
(Shanghai Institute of Applied Physics)