Enhancement of resonant and non-resonant magnetoelectric coupling in multiferroic laminates with anisotropic piezoelectric properties - Concepedia

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Enhancement of resonant and non-resonant magnetoelectric coupling in multiferroic laminates with anisotropic piezoelectric properties

48

Citations

24

References

2013

Year

Deepak R. Patil, Yisheng Chai, Rahul C. Kambale, Byung‐Gu Jeon, Kyongjun Yoo, Jungho Ryu, Woon‐Ha Yoon, Dong-Soo Park, Dae‐Yong Jeong, Sang‐Goo Lee,

Applied Physics Letters

Multiferroic LaminatesEngineeringSymmetric Metglas/Magnetic MaterialsMagnetismMultiferroicsVibrationsAnisotropic Piezoelectric PropertiesFerroelectric ApplicationDiagonal Vibration ModesAnisotropic Planar PiezoelectricityPiezoelectric MaterialMaterials ScienceElectrical EngineeringPiezoelectric MaterialsPiezoelectricityMagnetoelasticityPyroelectricityMagnetoelectric MaterialsPiezoelectric NanogeneratorsApplied PhysicsFerroelectric MaterialsNon-resonant Magnetoelectric CouplingFunctional Materials

Abstract

Giant transverse magnetoelectric voltage coefficients |α̃E| = 751 and 305 V/cmOe at two electromechanical antiresonance frequencies are found in the symmetric metglas/[011]-oriented 0.7Pb(Mg1/3Nb2/3)O3–0.3PbTiO3 crystal/metglas laminate. Unique torsional and diagonal vibration modes are identified to be responsible for those giant |α̃E| values. Moreover, α̃E is found to be anisotropic depending on the in-plane magnetic field directions, making the piezoelectrics with anisotropic planar piezoelectricity potentially useful base materials for multi-frequency, phase-sensitive magnetoelectric devices.

References

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