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The magnetoelectric (ME) effect induced by a rotating magnetic field, h, in the presence of a dc magnetic field, H0, is investigated in a disk-shaped ferromagnetic FeBSiC - piezoelectric lead… Click to show full abstract
The magnetoelectric (ME) effect induced by a rotating magnetic field, h, in the presence of a dc magnetic field, H0, is investigated in a disk-shaped ferromagnetic FeBSiC - piezoelectric lead zirconate titanate bilayer structure. It is found that, due to the nonlinear field-dependence of magnetostriction λ(H) in the ferromagnetic layer, voltage harmonics are gen-erated. These harmonics have a specific dependence of their amplitude and phase on H0 and h, which is different from the case of excitation with a linearly polarized field. A theory is developed that describes characteristics of the ME effect for the cases of weak h alt;alt;H0 and strong hagt;agt; H0 excitation fields. The effect can be employed in designing highly sensitive sensors of permanent and alternating magnetic fields.
Journal Title: Smart Materials and Structures
Year Published: 2019
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