Superconducting RF Cavities and Magnets for a 4-TeV Energy Muon Collider
The accelerators must take the muon beams from -100 MeV to 2 TeV energies within the muon lifetime for a 4 TeV energy muon collider. These constraints plus the muon decay heating seriously challenge the designs of the superconducting RF (SRF) cavities and magnets in the accelerators and collider ring. The multiple superconducting recirculation linac and the very rapid-cycling superconducting synchrotron approach are both studied. We briefly introduce the technical considerations and preliminary designs of the SRF systems and magnets.
KeywordsMuon Decay Muon Beam Magnet Design Coil Radius Muon Lifetime
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- (A) µ+ µ- Collider — A Feasibility Study, BNL-52503, Fermi-Lab-Conf.-96–092, LBNL-38946, Muon Collider Collaboration, presented at the Snowmass workshop (1996). (B) D. Neuffer, to be published in NIM A (1996).Google Scholar
- M. A. Green, et. al., LBNL-39107, Lawrence Berkeley National Lab, Berkeley CA 94720, 1997.Google Scholar
- D. Summers, et al., International Particle Accelerator Conference — 97, Vancouver Canada 1997.Google Scholar
- (A) Q.-S. Shu, et al., International Particle Accelerator Conference — 97, Vancouver Canada 1997. (B) Q-S. Shu for the TESLA Collaboration, in Advances in Cryogenic Engineering, P. Kittel, ed. Vol. 41A, p. 827 (1996).Google Scholar
- M. A. Green, et al., LBNL-39106, Lawrence Berkeley National Lab, Berkeley CA 94720, 1997.Google Scholar
- J. Sekutowicz, Private communication, DESY, Hamburg Germany, May 1997.Google Scholar
- W. Weingarten, Private communication, CERN, Geneva Switzerland, September 1996.Google Scholar