Title |
RF Design and Simulation of a Non-Periodic Lattice Photonic Band Gap (PBG) Accelerating Structure |
Authors |
- N. Zhou, A. Nassiri
ANL, Argonne, Illinois, USA
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Abstract |
Photonic Band Gap (PBG) structures (metallic and or dielectric) have been proposed for accelerators. These structures act like a filter, allowing RF field at some frequencies to be transmitted through, while rejecting RF fields in some (unwanted) frequency range. Additionally PBG structures are used to support selective field patterns (modes) in a resonator or waveguide. In this paper, we will report on the RF design and simulation results of an X-band PBG structure, including lattice optimization, to improve RF performance.
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Paper |
download WEPOA13.PDF [0.448 MB / 3 pages] |
Export |
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Conference |
NAPAC2016, Chicago, IL, USA |
Series |
North American Particle Accelerator Conference (3rd) |
Proceedings |
Link to full NAPAC2016 Proccedings |
Session |
Poster Session (MC3 & MC4) |
Date |
12-Oct-16 08:30–12:30 |
Main Classification |
3: Advanced Acceleration Techniques and Alternative Particle Sources |
Sub Classification |
A16 - Advanced Concepts |
Keywords |
ion, lattice, cavity, photon, wakefield |
Publisher |
JACoW, Geneva, Switzerland |
Editors |
Volker RW Schaa (GSI, Darmstadt, Germany); Maria Power (ANL, Argonne, IL, USA); Vladimir Shiltsev (FNAL, Batavia, IL, USA); Marion White (ANL, Argonne, IL, USA) |
ISBN |
978-3-95450-180-9 |
Published |
January 2017 |
Copyright |
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