1. Theory of a dynamical coercive force in magnets with microscopic defects
- Author
-
S.N. Lyakhimets and B.A. Ivanov
- Subjects
Physics ,Domain wall (magnetism) ,Ferromagnetism ,Condensed matter physics ,Drag ,Magnet ,Electrical and Electronic Engineering ,Coercivity ,Crystallographic defect ,Finite thickness ,Electronic, Optical and Magnetic Materials ,Magnetic field - Abstract
The peculiar dynamical drag force F/sub c/ can arise at the domain wall motion in a magnet with microscopic defects, such that it cannot pin the domain wall in the usual way. The value of F/sub c/ is finite as the domain wall velocity v goes to zero. The reason for such behavior is the emission of bending waves of the domain wall. The calculations for different types of impurities as well as for both bulk ferromagnet and ultrathin magnetic layers are presented. In 3D ferromagnet the F/sub c/ value is finite at v/spl rarr/0 and this is interpreted as the dynamical coercive force. In the 2D case (e.g. in monolayer films) the drag force diverges at small velocities as F/sub c//spl prop/1/v/sup 1/2/. In the film with a finite thickness and very small v the force has a viscous character: F/sub c//spl prop/v. >
- Published
- 1994
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