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Publications in Scientific Journals:

W. Scholz, H. Forster, D. Süss, T. Schrefl, J. Fidler:
"Micromagnetic simulation of domain wall pinning and domain wall motion";
Computational Materials Science, 25 (2002), 540 - 546.



English abstract:
Micromagnetic simulation of domain wall pinning and domain wall motion

W. Scholz [Corresponding Author Contact Information] , [E-mail The Corresponding Author] , H. Forster, D. Suess, T. Schrefl and J. Fidler

Institute of Applied and Technical Physics, Vienna University of Technology, Wiedner Hauptstraße 8-10/137, A-1040, Vienna, Austria

Available online 22 October 2002.
Abstract

Domain wall pinning is the coercivity mechanism of permanent magnets used in high temperature applications. In SmCo based magnets domain walls get trapped at the cellular precipitation structure causing a high coercive field. The motion of domain walls and their propagation velocity are important in soft magnets as used in sensor applications. A finite element micromagnetic algorithm was developed to study the motion of domain walls in complex microstructures. The cellular microstructure of SmCo magnets or the cylindrical soft wires can be easily built using tetrahedral finite elements. The pinning of the domain walls has been studied for different material compositions. Attractive and repulsive domain wall pinning are observed and their behaviour for increasing thickness of the precipitation structure is explained. The motion of domains in magnetic nanowires was calculated using adaptive mesh refinement. The wall velocity strongly depends on the domain wall structure. Transverse and vortex walls have been observed and their velocity in wires of different thickness has been studied.


Electronic version of the publication:
http://www.elsevier.com/locate/commatsci


Created from the Publication Database of the Vienna University of Technology.