论文信息 - 3-D Nonlinear Magnetostatic Simulation of a Superconductive Magnet Using a Higher-Order Finite-Element Code

3-D Nonlinear Magnetostatic Simulation of a Superconductive Magnet Using a Higher-Order Finite-Element Code

Magnetoquasistatic models commonly feature nonlinear materials. In high-energy synchrotrons, dipole magnets with aperture fields approaching 2 T are required to keep the ionized beam on a circular track. At these field magnitudes, the ferromagnetic yoke material is heavily saturated, causing a significant deterioration of the aperture field quality. In order to quantify the field quality, 3-D nonlinear finite-element simulations are carried out. The approach is tested for the SIS100 magnet of the FAIR project at the GSI, Darmstadt, Germany.

T. Weiland | H. de Gersem | B. Doliwa | S. Koch

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