Email this article Rotation of a 1-GeV particle beam by a fan system of thin crystals
- Authors: Britvich G.I.1, Maisheev V.A.1, Chesnokov Y.A.1, Chirkov P.N.1
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Affiliations:
- Institute for High-Energy Physics
- Issue: Vol 123, No 4 (2016)
- Pages: 601-606
- Section: Atoms, Molecules, Optics
- URL: https://journals.rcsi.science/1063-7761/article/view/190794
- DOI: https://doi.org/10.1134/S1063776116100022
- ID: 190794
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Abstract
The deflection of a 1-GeV charged particle beam by a system formed by fan-oriented thin silicon wafers has been studied theoretically and experimentally. Software has been developed for numerical simulation of a particle beam transmission through a fan crystal system. In the U-70 experiment on a proton beam, the particles were deflected by such a system through an angle exceeding 1 mrad. Thus, a new method has been demonstrated for rotating a particle beam, which can be used for creating accelerator beams for medical purposes.
About the authors
G. I. Britvich
Institute for High-Energy Physics
Email: Yury.Chesnokov@ihep.ru
Russian Federation, Protvino, Moscow oblast, 142281
V. A. Maisheev
Institute for High-Energy Physics
Email: Yury.Chesnokov@ihep.ru
Russian Federation, Protvino, Moscow oblast, 142281
Yu. A. Chesnokov
Institute for High-Energy Physics
Author for correspondence.
Email: Yury.Chesnokov@ihep.ru
Russian Federation, Protvino, Moscow oblast, 142281
P. N. Chirkov
Institute for High-Energy Physics
Email: Yury.Chesnokov@ihep.ru
Russian Federation, Protvino, Moscow oblast, 142281
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