The scattering of muons in low Z materials
/ Authors
MuScat Collaboration D. Attwood, P. Bell, S. Bull, T. Mcmahon, J. Wilson, R. Fernow, P. Gruber, A. Jamdagni, K. Long, E. Mckigney
and 20 more authors
P. Savage, M. Curtis-Rouse, T. Edgecock, M. Ellis, J. Lidbury, W. Murray, P. Norton, K. Peach, K. Ishida, Y. Matsuda, K. Nagamine, S. Nakamura, G. Marshall, S. Benveniste, D. Cline, Y. Fukui, K. Lee, Y. Pischalnikov, S. Holmes, A. Bogacz
/ Abstract
Abstract This paper presents the measurement of the scattering of 172 MeV/c muons in assorted materials, including liquid hydrogen, motivated by the need to understand ionisation cooling for muon acceleration. Data are compared with predictions from the GEANT4 simulation code and this simulation is used to deconvolute detector effects. The scattering distributions obtained are compared with the Moliere theory of multiple scattering and, in the case of liquid hydrogen, with ELMS. With the exception of ELMS, none of the models are found to provide a good description of the data. The results suggest that ionisation cooling will work better than would be predicted by GEANT 4.7.0p01.
Journal: Nuclear Instruments & Methods in Physics Research Section B-beam Interactions With Materials and Atoms