V. M. Petrov | Researchain

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Featured researches published by V. M. Petrov.

Physical Review B | 2003

Theory of low-frequency magnetoelectric coupling in magnetostrictive-piezoelectric bilayers

M. I. Bichurin; V. M. Petrov; G. Srinivasan

A theoretical model is presented for low-frequency magnetoelectric (ME) effects in bilayers of magnetostrictive and piezoelectric phases. A novel approach, the introduction of an interface coupling parameter k, is proposed for the consideration of actual boundary conditions at the interface. An averaging method is used to estimate effective material parameters. Expressions for ME voltage coefficients

Physical Review B | 2003

Resonance magnetoelectric effects in layered magnetostrictive-piezoelectric composites

M. I. Bichurin; D. A. Filippov; V. M. Petrov; V. M. Laletsin; N. Paddubnaya; G. Srinivasan

{ensuremath{alpha}}_{E}^{ensuremath{}}=ensuremath{delta}E/ensuremath{delta}H,

Journal of Applied Physics | 2002

Theory of low-frequency magnetoelectric effects in ferromagnetic-ferroelectric layered composites

M. I. Bichurin; V. M. Petrov; G. Srinivasan

where

Physical Review B | 2004

Microwave magnetoelectric effects in single crystal bilayers of yttrium iron garnet and lead magnesium niobate-lead titanate

S. Shastry; G. Srinivasan; M. I. Bichurin; V. M. Petrov; A. S. Tatarenko

ensuremath{delta}E

Applied Physics Letters | 2010

Flexural deformation in a compositionally stepped ferrite and magnetoelectric effects in a composite with piezoelectrics

Sanjay Mandal; G. Sreenivasulu; V. M. Petrov; G. Srinivasan

is the induced electric field for an applied ac magnetic field

Journal of Applied Physics | 2009

Theory of magnetoelectric effect for bending modes in magnetostrictive-piezoelectric bilayers

V. M. Petrov; G. Srinivasan; M. I. Bichurin; T. A. Galkina

ensuremath{delta}H,

Journal of Applied Physics | 2010

Present status of theoretical modeling the magnetoelectric effect in magnetostrictive-piezoelectric nanostructures. Part I: Low frequency and electromechanical resonance ranges

M. I. Bichurin; V. M. Petrov; S. V. Averkin; Edward Liverts

are obtained by solving elastostatic and electrostatic equations. We consider both unclamped and rigidly clamped bilayers and three different field orientations of importance: (i) longitudinal fields

Applied Physics Letters | 2011