|
MODELS IN PHYSICS AND TECHNOLOGY
Peculiar features of numerical modeling of the modified spectrometer magnet field
I. P. Yudin, V. A. Panasik, E. E. Perepelkin, A. N. Petersky Joint Institute for Nuclear Research, 6 Joliot-Curie st., Dubna, 141980, Russia
Abstract:
In this work, we propose a method of the numerical solution of the magnetostatic problem for domains with boundaries containing corners. With the help of this numerical method, the magnetic systems of rectangular configuration were simulated with high accuracy. In particular, the calculations of some modifications of the magnetic system SP-40 used in the NIS JINR experimental installation, are presented. The basic feature of such a magnet is a rectangular aperture, hence, the area in which the boundary-value problem is solved, has a smooth border everywhere, except for a finite number of angular points in the vicinity of which the border is formed by crossing two smooth curves. In such cases the solution to the problem or derivatives of the solution can have a special feature. A behavior of the magnetic field in the vicinity of an angular point is investigated, and the configuration of the magnet was chosen numerically. The width of the area of homogeneity of the mag-netic field increased from 0.5 m up to 1.0 m, i. e. twice.
Keywords:
magnet systems, mathematical modeling, boundary value problem, elliptic equations, the behavior of solutions in the corner domain.
Received: 09.04.2012 Revised: 15.10.2014
Citation:
I. P. Yudin, V. A. Panasik, E. E. Perepelkin, A. N. Petersky, “Peculiar features of numerical modeling of the modified spectrometer magnet field”, Computer Research and Modeling, 7:1 (2015), 93–105
Linking options:
https://www.mathnet.ru/eng/crm171 https://www.mathnet.ru/eng/crm/v7/i1/p93
|
|