Muon Collider Design
/ Authors
R. Palmer, A. Sessler, A. Skrinsky, A. Tollestrup, A. Baltz, S. Caspi, P. Chen, W. Cheng, Y. Cho, D. Cline
and 49 more authors
E. Courant, R. Fernow, J. Gallardo, A. Garren, H. Gordon, M. Green, R. Gupta, A. Hershcovitch, C. Johnstone, S. Kahn, H. Kirk, T. Kycia, Y. Lee, D. Lissauer, A. Luccio, A. Mcinturff, F. Mills, N. Mokhov, G. Morgan, D. Neuffer, K. Ng, R. Noble, J. Norem, B. Norum, K. Oide, Z. Parsa, V. Polychronakos, M. Popovic, P. Řehák, T. Roser, R. Rossmanith, R. Scanlan, L. Schachinger, G. Silvestrov, I. Stumer, D. Summers, M. Syphers, H. Takahashi, Y. Torun, D. Trbojevic, W. Turner, A. V. Ginneken, T. Vsevolozhskaya, R. Weggel, E. Willen, W. Willis, D. Winn, J. Wurtele, Y. Zhao
/ Abstract
Parameters are given of machines with center-of-mass (CoM) energies of 3 TeV and 400 GeV but, besides a comment on neutrino radiation, the paper concentrates on progress on the design of a machine to operate at a light Higgs mass, assumed, for this study, to be 100 GeV (CoM). This article reviews the same material covered in the report.
Journal: arXiv: Accelerator Physics