Title |
Parameter Studies and Geometry Optimization on Superconducting Multicell RF Cavity Resonators |
Authors |
- B.D. Isbarn, B. Riemann, M. Sommer, T. Weis
DELTA, Dortmund, Germany
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Abstract |
Modern accelerator concepts for high intensity electron beams often require superconducting multicell RF-cavity-resonators in circular accelerators (e.g. storage rings). Caused by strong beam-cavity interaction and due to high quality factors of superconducting RF-structures special care of lower order (LOM) and higher order (HOM) modes must be taken. Various numerical studies were performed to numerically calculate the dependence of different figures of merit (e.g. external quality factors Qext) with respect to the geometry parameters and cell number of the RF-structure, focused on the propagation and damping of low and higher order modes. To ease the numerical effort an optimization routine has been developed which automatically optimizes the geometry based on goal functions. In this context it turned out that cell geometries defined by spline functions have advantages compared to the standard elliptical parametrization regularly used. The number of free parameters is substantially reduced which facilitates the search for optimum solutions.
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Funding |
Work partly supported by the BMBF under contract No. 05K13PEB |
Paper |
download WEPRI009.PDF [0.731 MB / 3 pages] |
Export |
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Conference |
IPAC2014, Dresden, Germany |
Series |
International Particle Accelerator Conference (5th) |
Proceedings |
Link to full IPAC2014 Proccedings |
Session |
Poster Session, Ribery Area |
Date |
18-Jun-14 16:00–18:00 |
Main Classification |
07 Accelerator Technology Main Systems |
Sub Classification |
T07 Superconducting RF |
Keywords |
factory, cavity, HOM, coupling, RF-structure |
Publisher |
JACoW Publishing, Geneva, Switzerland |
Editors |
Christine Petit-Jean-Genaz (CERN, Geneva, Switzerland); Gianluigi Arduini (CERN, Geneva, Switzerland); Peter Michel (HZDR, Dresden, Germany); Volker RW Schaa (GSI, Darmstadt, Germany) |
ISBN |
978-3-95450-132-8 |
Published |
July 2014 |
Copyright |
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