Paper |
Title |
Page |
MOPKF076 |
An Overview of the Cryomodule for the Cornell ERL Injector
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491 |
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- H. Padamsee, B.M. Barstow, V. Medjidzade, V.D. Shemelin, K.W. Smolenski
Cornell University, Ithaca, New York
- I. Bazarov, C.K. Sinclair
Cornell University, Department of Physics, Ithaca, New York
- S.A. Belomestnykh, R. Geng, M. Liepe, M. Tigner, V. Veshcherevich
Cornell University, Laboratory for Elementary-Particle Physics, Ithaca, New York
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The first stage of the Cornell ERL project will be a 100 MeV, 100 mA (CW) prototype machine to study the energy recovery concept with high current, low emittance beams. In the injector, a bunched 100 mA, 500 keV beam of a DC gun will be compressed in a normal-conducting copper buncher and subsequently accelerated by five superconducting 2-cell cavities to an energy of 5.5 MeV. We will present an overview of the injector status to include the status of the cryomodule design along with the status of the 2-cell HOM-free cavity, the twin-input coupler and the ferrite HOM dampers in related papers.
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MOPKF078 |
ERL Upgrade of an Existing X-ray Facility: CHESS at CESR
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497 |
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- G. Hoffstaetter, M. Liepe, R.M. Talman, M. Tigner
Cornell University, Laboratory for Elementary-Particle Physics, Ithaca, New York
- I. Bazarov, H. Bilderback, M. Billing, S. Gruner, D. Sagan, C.K. Sinclair
Cornell University, Department of Physics, Ithaca, New York
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CORNELL has proposed an Energy-Recovery Linac (ERL) based synchrotron-light facility which can provide improved x-ray radiation due to the high beam quality that can be available from a linac. To additionally utilize beam currents that are competitive with ring-based light sources, the linac has to operate with the novel technique of energy recovery, the feasibility of which CORNELL plans to demonstrate in a downscaled prototype ERL. Here we present an ERL upgrade of the existing 2nd generation light source CHESS at CESR. This proposed upgrade suggests how existing storage rings can be extended to ERL light sources with much improved beam qualities.
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WEPLT153 |
Multi-pass Beam-breakup: Theory and Calculation
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2194 |
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- I. Bazarov
Cornell University, Department of Physics, Ithaca, New York
- G. Hoffstaetter
Cornell University, Laboratory for Elementary-Particle Physics, Ithaca, New York
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Multi-pass, multi-bunch beam-breakup (BBU) has been long known to be a potential limiting factor for the current in linac-based recirculating accelerators. New understanding of theoretical and computational aspects of the phenomenon are presented here. We also describe a detailed simulation study of BBU in the proposed 5 GeV Energy Recovery Linac light source at Cornell University which is presented in a separate contribution to this conference.
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