Abstract
Dynamic domain-structure behavior during rotational magnetization reversal of a single-crystal Fe-3% Si disk with the [001] crystallographic axis deviated slightly (at an angle β = 1.5°) from the specimen plane have been investigated on the surface of the specimen. New regularities of the changes in the closure domain structure have been revealed in an induction interval of 0.25–1.7 T and their effect on the magnetic losses due to rotational magnetization reversal of the sample have been analyzed. The level of magnetic losses at low induction amplitudes has been estimated from the velocities of displacement of 180° domain walls of the stripe domain structure.
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