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Numerous step-by-step tutorials help the reader to estimate the peak values of magnetoelectric parameters of a composite
Explicit expressions for magnetoelectric coefficients enable finding an optimal composition for obtaining a strong magnetoelectric effect
In-depth analysis of enhanced magnetoelectric coupling in the frequency regions corresponding to mechanical and magnetic resonance suggests application of composites at overlapping of acoustic and magnetic resonances due to giant magnetoelectric coefficients
Provides a strong combination of theoretical background combined with applications
This book brings together numerous contributions to the field of magnetoelectric (ME) composites that have been reported so far. Theoretical models of ME coupling in composites relate to the wide frequency range: from low-frequency to microwave ones and are based on simultaneous solving the elastostatic/elastodynamic and electrodynamics equations. Suggested models enable one to optimize magnetoelectric parameters of a composite. The authors hope to provide some assimilation of facts into establish knowledge for readers new to the field, so that the potential of the field can be made transparent to new generations of talent to advance the subject matter.
Content Level »Research
Keywords »Electromechanical Resonance Frequency - Electromechanical Resonance Region - Laminate Composites - ME Effect in Ferrite Cobalt–barium Titanate - Macroscopic Homogeneous Model - Magnetic Resonance in Composites - Magneto-Acoustic Resonance - Magnetostrictive Materials - Magnetostrictive-piezoelectric Composites - Maxwell-Wagner Relaxation - Piezoelectrics - magnetoelectric effect - multiferroics - multilayers