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Feasibility study of permanent magnet dipoles for SILA facility

Daria Arslanova, Yuri Gavrish, Elena Gapionok, Aleksandra Grosheva, Nikita Knyazev, Vladimir Kukhtin, Eugeny Lamzin, Andrey Nezhentzev, Alexander Ovsyannikov, Dmitri Ovsyannikov, Sergey Sytchevsky, Nataliia Znamenshchikova
The 40 cell lattice of the new Russian synchrotron radiation facility SILA is envisaged to employ permanent magnet (PM) dipoles as bend magnets. Numerical study of the basic concept for short PM dipoles is described. Iterative 3D simulations with a detailed model were used to assess anticipated field distribution and magnetic forces. A scope of critical aspects was investigated to move up to the engineering design including candidate materials, geometry, thermal stability, magnetic interaction, and field tuning. Aggregated results made it possible to optimize the initial concept and get guidance to practical implementation.
CYBERNETICS AND PHYSICS, Vol. 12, No. 4, 2023, 252–256
https://doi.org/10.35470/2226-4116-2023-12-4-252-256
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