European Physical Journal C: Particles and Fields (Jan 2020)

Broad angular anisotropy of multiple scattering in a Si crystal

  • A. Mazzolari,
  • A. Sytov,
  • L. Bandiera,
  • G. Germogli,
  • M. Romagnoni,
  • E. Bagli,
  • V. Guidi,
  • V. V. Tikhomirov,
  • D. De Salvador,
  • S. Carturan,
  • C. Durigello,
  • G. Maggioni,
  • M. Campostrini,
  • A. Berra,
  • V. Mascagna,
  • M. Prest,
  • E. Vallazza,
  • W. Lauth,
  • P. Klag,
  • M. Tamisari

DOI
https://doi.org/10.1140/epjc/s10052-019-7586-6
Journal volume & issue
Vol. 80, no. 1
pp. 1 – 8

Abstract

Read online

Abstract We observed reduction of multiple Coulomb scattering of 855 MeV electrons within a Si crystalline plate w.r.t. an amorphous plate with the same mass thickness. The reduction owed to complete or partial suppression of the coherent part of multiple scattering in a crystal vs crystal orientation with the beam. Experimental data were collected at Mainz Mikrotron and critically compared to theoretical predictions and Monte Carlo simulations. Our results highlighted maximal 7% reduction of the r.m.s. scattering angle at certain beam alignment with the [100] crystal axes. However, partial reduction was recorded over a wide range of alignment of the electron beam with the crystal up to 15$$^{\circ }$$ ∘ . This evidence may be relevant to refine the modelling of multiple scattering in crystals for currently used software, which is interesting for detectors in nuclear, medical, high energy physics.