Title |
High-frequency SRF Cavities |
Authors |
- T.E. Oseroff, D.L. Hall, M. Liepe, J.T. Maniscalco
Cornell University (CLASSE), Cornell Laboratory for Accelerator-Based Sciences and Education, Ithaca, New York, USA
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Abstract |
Historically, the frequency of SRF cavities has been limited by cryogenic power dissipation increasing rapidly with frequency, due to the BCS surface resistance having a quadratic dependence on frequency. Now, new SRF surfaces using doped niobium and compound superconductors like Nb3Sn can drastically reduce the BCS part of the surface resistance. The temperature independent part of the surface resistance (residual resistance) can therefore become dominant, and has its own, different frequency dependence. We have developed a model to analyze cryogenic cooling power requirements for SRF cavities as function of operating frequency, temperature, and trapped flux to evaluate the impact of the novel low-loss SRF surfaces on the questions of optimal operating frequency and frequency limit. We show that high-frequency SRF cavities now become a realistic option for future SRF driven accelerators. As the transverse cavity size decreases inversely with respect to its resonant frequency, such high-frequency SRF cavities could greatly reduce cost.
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Paper |
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Conference |
SRF2017, Lanzhou, China |
Series |
International Conference on RF Superconductivity (18th) |
Proceedings |
Link to full SRF2017 Proccedings |
Session |
Poster Session |
Date |
18-Jul-17 14:00–17:00 |
Main Classification |
SRF Technology R&D |
Sub Classification |
Cavity |
Keywords |
cavity, ion, cryogenics, SRF, ECR |
Publisher |
JACoW, Geneva, Switzerland |
Editors |
Volker RW Schaa (GSI, Darmstadt, Germany); Yuan He (IMP, Lanzhou, China); Lu Li (IMP, Lanzhou, China); Ning Zhao (IHEP, Beijing, China) |
ISBN |
978-3-95450-191-5 |
Published |
January 2018 |
Copyright |
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