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Simulation of low energy muon frictional cooling

โœ Scribed by R. Galea; A. Caldwell; S. Schlenstedt; H. Abramowicz

Publisher
Elsevier Science
Year
2006
Tongue
English
Weight
162 KB
Volume
558
Category
Article
ISSN
0168-9002

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โœฆ Synopsis

Frictional cooling is a proposed method of phase space reduction for a potential muon beam intended for collisions. The basic principle involves compensating for the muon energy loss in media by a constant electric field. The muons are in an energy regime below the ionization peak which for muons in helium is less than 10 keV. Electronic energy loss is treated as a continuous process and all individual nuclear scatters with scattering angles greater than 50 mrad are simulated as discrete processes. Other effects like the Barkas [W.H. Barkas, W. Birnbaum, F.M. Smith, Phys. Rev. 101 (1956) 778.] effect and Muonium formation are also included. The results of our simulations are summarized.

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