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Abstract
Ferromagnetic domain wall with transverse configuration is a source of local magnetic fields that strongly interacts with external fields. In this paper, we show that domain wall dynamics can be effectively tailored by the application of a transverse magnetic field of a certain direction. Depending on the direction of the transverse field, the domain wall velocity is either higher or lower. Our measurements carried out by the Sixtus-Tonks experiment show that a certain direction of the transverse magnetic field could completely block the domain wall propagation. The effect is explained by a distribution of transverse magnetic anisotropy induced into the cylindrical wire during its production.
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