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Other Keywords |
Page |
| TUPLT151 |
Status of the Fermilab Electron Cooling Project
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electron, vacuum, acceleration, antiproton |
1485 |
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- J.R. Leibfritz, D.R. Broemmelsiek, A.V. Burov, K. Carlson, B. Kramper, T. Kroc, M. McGee, S. Nagaitsev, L. Nobrega, G. Saewert, C.W. Schmidt, A.V. Shemyakin, M. Sutherland, V. Tupikov, A. Warner
Fermilab, Batavia, Illinois
- G. Kazakevich
BINP SB RAS, Novosibirsk
- S. Seletsky
Rochester University, Rochester, New York
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Fermilab has constructed and commissioned a full-scale prototype of a multi-MV electron cooling system to be installed in the 8.9 GeV/c Fermilab Recycler ring. This prototype was used to test all of the electron beam properties needed for cooling. However, because the prototype is not located within proximity of the Recycler ring, the actual electron cooling of antiprotons can not be demonstrated until it is relocated. The Fermilab electron cooling R&D project is scheduled to be completed in May, 2004 at which time it will be disassembled and relocated to a newly constructed facility where it will be installed in the Recycler. This paper describes the experimental results obtained with the prototype cooler system, gives an overview of the new electron cooling facility, and discusses the overall status of the project.
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| WEPLT153 |
Multi-pass Beam-breakup: Theory and Calculation
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linac, simulation, damping, injection |
2197 |
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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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| WEPLT167 |
A Cure for Multipass Beam Breakup in Recirculating Linacs
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feedback, dipole, linac, simulation |
2218 |
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| FRXCH01 |
Development of High Power Targets
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target, radiation, proton, injection |
276 |
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- G.S. Bauer
FZJ/ESS, Jülich
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High power targets are at the very heart of most applications of accelerators to science and technology. With many projects aiming to utilize beams in the multi-megawatt power range, solid targets, in particular stationary ones, become increasingly difficult. Liquid metal targets have become the concept of choice. Designs cover a variety of concepts ranging from free jets to allow extraction of low energy ? highly ionizing radiation (pions and muons) to fully enclosed systems if neutron generation is the main goal. Mercury is often the preferred target material due to its liquid state at room temperature and other favourable properties. Designs aiming at high temperature operation depending on small neutron absorption rely on PbBi as target material. Liquid lithium is proposed for a deuteron stripping target for the IFMIF project. Questions that need to be solved include solid-liquid metal reactions, radiation effects, general liquid metal technology, handling of spallation products as well as design of components and subsystems. In addition, short pulse operation leads to the generation of pressure waves inside the targets and the need to control their consequences.
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