Vladimir Petrov

Преподаваемые дисциплины:

• Материаловедение и материалы электронных средств
• Материалы и компоненты электронных средств
• Техническая электродинамика
• Электромагнитная совместимость радиоэлектронных средств
• Основы теории имитационного моделирования
• Микроволновые системы

Краткое резюме:

Список публикаций:

• L. Y. Fetisov, N. S. Perov, Y. K. Fetisov, G. Srinivasan, and V. M. Petrov. Resonance magnetoelectric interactions in an asymmetric ferromagnetic-ferroelectric layered structure, J. Appl. Phys. 109, 053908 (1-4) (2011).
• M. Bichurin, V. Petrov, A. Zakharov, D. Kovalenko, S. C. Yang, D. Maurya, V. Bedekar and S. Priya. Magnetoelectric Interactions in Lead-Based and Lead-Free Composites, Materials 4, 651-702 (2011).
• G. Sreenivasulu, S. K. Mandal, V. M. Petrov, A. Mukundan, S. Rengesh & G. Srinivasan. Bending Resonance in a Magnetostrictive-Piezoelectric Bilayer and Magnetoelectric Interactions, Integrated Ferroelectrics, 126, 87-93 (2011).
• S. K. Mandal, G. Sreenivasulu, S. Bandekar, V.M. Petrov, and G. Srinivasan. Functionally Graded Piezomagnetic and Piezoelectric Bilayers for Magnetic Field Sensors: Magnetoelectric Interactions at Low-Frequencies and at Bending Modes. In: Advances and Applications in Electroceramics, Volume 226 (eds K. M. Nair, Q. Jia and S. Priya), John Wiley & Sons, Inc., Hoboken, NJ, USA, 2011. doi: 10.1002/9781118144480.ch23.
• L.Y. Fetisov, N.S. Perov, Yu.K. Fetisov, G. Srinivasan, and V.M. Petrov. Resonance magnetoelectric interactions in an asymmetric ferromagnetic-ferroelectric layered structure, J. Appl. Phys. Volume 109, Issue 5, 2011, P. 053908.
• S.K. Mandal, G. Sreenivasulu, V.M. Petrov, and G. Srinivasan. Magnetization-graded multiferroic composite and magnetoelectric effects at zero bias, Physical Review B Volume 84, Issue 1, 2011, P. 014432.
• S.K. Mandal, G. Sreenivasulu, V.M. Petrov, and G. Srinivasan Functionally graded piezomagnetic and piezoelectric bilayers for magnetic field sensors: Magnetoelectric interactions at low-frequencies and at bending modes, Ceramic Transactions, vol. 226, 2011, pp. 223–230.
• G. Sreenivasulu, S.K. Mandal, A. Mukundan, S. Rengesh, V.M. Petrov, and G. Srinivasan. Integrated Ferroelectrics, vol. 126, 2011, no. 1, pp. 87–93.
• G. Sreenivasulu, S. K. Mandal, S. Bandekar, V.M. Petrov, and G. Srinivasan. Low-frequency and resonance magnetoelectric effects in piezoelectric and functionally stepped ferromagnetic layered composites, Phys. Rev. B 84, 144426 (2011).
• U. Laletin, G. Sreenivasulu, V.M. Petrov, T. Garg, A. R. Kulkarni, N. Venkataramani, and G. Srinivasan. Hysteresis and remanence in magnetoelectric effects in functionally graded magnetostrictive-piezoelectric layered composites, Phys. Rev. B 85, 104404 (2012).
• V.M. Petrov, M. I. Bichurin, G. Srinivasan, V.M. Laletin, R.V. Petrov Bending Modes and Magnetoelectric Effects in Asymmetric Ferromagnetic-Ferroelectric Structure, Solid State Phenomena: Magnetism and Magnetic Materials. V, P.P.281-284 (2012).
• G. Sreenivasulu, U. Laletin, V. V. Petrov, and G. Srinivasan. A permendur-piezoelectric multiferroic composite for low-noise ultrasensitive magnetic field sensors, Appl. Phys. Lett. 100, 173506 (2012).
• G. Sreenivasulu, V. M. Petrov, L. Y. Fetisov, Y. K. Fetisov, and G. Srinivasan. Magnetoelectric interactions in layered composites of piezoelectric quartz and magnetostrictive alloys Phys. Rev. B 86, 214405 (2012).
• C.-S. Park, D. Avirovik, M. I. Bichurin, V. M. Petrov, and S. Priya, Tunable magnetoelectric response of dimensionally gradient laminate composites, Appl. Phys. Lett. 100, 212901 (2012).
• V.M. Petrov, G. Srinivasan. Theory of domain wall motion mediated magnetoelectric effects in a multiferroic composite. Phys. Rev. B 90, 144411 (2014).
• G. Sreenivasulu, V. M. Petrov, F. A. Chavez, and G. Srinivasan. Superstructures of self-assembled multiferroic core-shell nanoparticles and studies on
• magneto-electric interactions. Appl. Phys. Lett. 105, 072905 (2014).
• G. Sreenivasulu, P. Qu, E. Piskulich, V. M. Petrov, Y. K. Fetisov, A. P. Nosov, Hongwei Qu, and G. Srinivasan. Shear strain mediated magneto-electric effects in composites of piezoelectric lanthanum gallium silicate or tantalate and ferromagnetic alloys. Appl. Phys. Lett. 105, 032409 (2014).
• M. Bichurin, V. Petrov. Modeling of Magnetoelectric Effects in Composites. Book Springer Series in Materials Science, Volume 201 (2014).
• G. Sreenivasulu, P. Qu, V. M. Petrov, Hongwei Qu, and G. Srinivasan. Magneto-electric interactions at bending resonance in an asymmetric multiferroic composite: Theory and experiment on the influence of electrode position. J. Appl. Phys. 117, 174105 (2015).
• V. Petrov. Theory of magnetoelectric phenomena in composites. In: Composite Magnetoelectrics, Materials, Structures, and Applications, Eds. G. Srinivasan, S. Priya, N. Sun (Woodhead Publishing, 2015).
• G. Srinivasan, G. Sreenivasulu, C. Benoit, V. Petrov, F. Chavez. Magnetic field directed assembly of superstructures of ferrite-ferroelectric core-shell nanoparticles and studies on magneto-electric interactions, J. Appl. Phys. 117, 17B904 (20015).
• M. Bichurin, V. Petrov, R. Petrov, A. Tatarenko, V. Leontiev, K. Lavrentieva. Nomograph method for predicting magnetoelectric coupling. Journal of Magnetism and Magnetic Materials 412, 1 (2016).
• Бичурин М., Петров В., Леонтьев В., Саплев А. (Bichurin M., Petrov V., Leontyev V., Saplev A.) Two-range magnetoelectric sensor // AIP Advances V. 7, 2017, P. 015009 (1-4).
• Бичурин М., Петров В., Татаренко А. (Bichurin M., Petrov V., Tatarenko A.) Predicting Magnetoelectric Coupling in Layered and Graded Composites // Sensors V. 17, 2017, P. 1651 (1-21).
• Бичурин М.И., Петров В.М., Леонтьев В.С., Иванов С.Н., Соколов О.В. (Bichurin M.I, Petrov V.M., Leontiev V.S., Ivanov S.N., Sokolov O.V.) Magnetoelectric effect in layered structures of amorphous ferromagnetic alloy and gallium arsenide // Journal of Magnetism and Magnetic Materials. V. 424, 2017, P. 115-117.
• Бичурин М.И., Петров В.М., Леонтьев В.С., Саплев А.Ф. (Bichurin M.I., Petrov V.M., Leontyev V.S., Saplev A.F.) Двухуровневый магнитоэлектрический датчик // Вестник Новгородского государственного университета, № 6 (104), 2017, С. 4-6.
• Бичурин М.И., Петров Р.В., Петров В.М., Саплев А.Ф., Татаренко А.С., Коваленко Д.В., Мельничук Д.Г., Янг С.Ч. (Bichurin M.I., Petrov R.V., Petrov V.M., Saplev A.F., Tatarenko A.S., Kovalenko D.V., Melnichuk D.G., Yang S.C.) Magnetic resonance in bilayers of ferrite and functionally graded piezoelectric // Materials Research Bulletin, V. 96, 2017, P. 134-135.
• Петров В.М., Бичурин М.И., Коваленко Д.В. (Petrov V.M., Bichurin M.I., Kovalenko D.V.) Magnetoelectric effects in compositionally-stepped multilayers of lead-free piezoelectric and magnetostrictive components // Progress in Electromagnetics Research Symposium: Abstracts. 2017, P. 162.
• Петров В.М., Коваленко Д.В., Бичурин М.И. (Petrov V.M., Kovalenko D.V., Bichurin M.I.) Magnetoelectric effects in multiferroics of compositionally-stepped lead-free piezoelectric and magnetostrictive components // Moscow International Symposium on Magnetism: Book of Abstarcts, 2017. P. 907.
• Петров В.М., Саплев А.Ф., Татаренко А.С., Бичурин М.И. (Petrov V.M., Saplev A.F., Tatarenko A.S., Bichurin M.I.) Ferromagnetic resonance broadening in ferrite/piezoelectric layered structure // Moscow International Symposium on Magnetism: Book of Abstarcts, 2017, P. 1055.
• Петров В.М., Татаренко А.С., Бичурин М.И., Саплев А.Ф. (Petrov V.M., Tatarenko A.S., Bichurin M.I., Saplev A.F.) Buffer Layer Effects on Magnetic Resonance in Ferrite-piezoelectric Bilayer // Progress in Electromagnetics Research Symposium: Abstracts. 2017, P. 1243.