论文信息 - Fast numerical three-dimensional scheme for the simulation of hysteresis in ferromagnetic grains

Fast numerical three-dimensional scheme for the simulation of hysteresis in ferromagnetic grains

The magnetic behavior of ferromagnetic materials like iron is important for the improvement of performances of electromagnetic devices. This article deals with a three-dimensional model that computes the magnetic behavior of an iron grain under a varying applied field starting from its microscopic material parameters. The model can be used as a tool to determine the quantitative relations between the different microscopic parameters and their influence on the magnetic properties of the grain. The magnetization dynamics are computed for successive quasistatic applied fields. In each space point of the grain, the time variation of the magnetic dipole M is described by the Landau-Lifshitz equation. To integrate this equation, two time stepping schemes are proposed: a forward semianalytical and a predictor-corrector time stepping scheme. The two methods obey the two intrinsic properties of the Landau-Lifshitz equation: (1) preservation of the amplitude of the magnetic dipoles and (2) the decrease of the total...

Luc Dupré | Femke Olyslager | Ben Van de Wiele

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