Ferrite-Piezoelectric Layered Structures: Microwave Magnetoelectric Effects and Electric Field Tunable Devices

G. Srinivasan; Y.K. Fetisov

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Ferrite-Piezoelectric Layered Structures: Microwave Magnetoelectric Effects and Electric Field Tunable Devices

机译：铁氧体-压电分层结构：微波磁电效应和电场可调器件

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Studies on (i) microwave magnetoelectric (ME) interactions in ferrite-piezoelectric bi-layers and (ii) electric field tunable ME signal processing devices are discussed. An electric field E applied to the bilayer produces a mechanical deformation in the piezoelectric, resulting in a frequency (delta f) or magnetic field shift (delta H) in the ferromagnetic resonance (FMR) absorption spectra for the ferrite. Bilayers of single crystal yttrium iron garnet (YIG) and lead zirconium niobate-lead titanate (PMN-PT) were studied. The strength of ME coupling A = delta H/E has been measured from FMR absorption profiles at 1-10 GHz for E = 0-10 kV/cm. Variation in delta f or delta H with E is found to be linear. A decrease in the ME coefficient is measured as the thickness of YIG film is increased. The fabrication and characterization of electric field tunable YIG/PMN-PT resonators are discussed.

机译：讨论了（i）铁氧体-压电双层中的微波磁电（ME）相互作用和（ii）电场可调谐ME信号处理设备的研究。施加到双层上的电场E在压电体中产生机械变形，从而在铁氧体的铁磁共振（FMR）吸收光谱中产生频率（δf）或磁场偏移（δH）。研究了单晶钇铁石榴石（YIG）和铌酸锆锆-钛酸铅（PMN-PT）的双层结构。根据E = 0-10 kV / cm的FMR吸收曲线，在1-10 GHz下测量了ME耦合强度A = delta H / E。发现δf或δH与E的变化是线性的。随着YIG膜厚度的增加，测得ME系数的降低。讨论了电场可调YIG / PMN-PT谐振器的制造和特性。

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《Ferroelectrics: Letters Section》 |2006年第1期|共7页
作者
G. Srinivasan; Y.K. Fetisov;
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正文语种 eng
中图分类电磁学、电动力学;
关键词
Magnetoelectric; piezoelectric; ferromagnetic resonance; resonator; filter;

机译：磁电;压电;铁磁共振;谐振器;滤波器;

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1. Ferrite-Piezoelectric Layered Structures: Microwave Magnetoelectric Effects and Electric Field Tunable Devices [J] . G. Srinivasan, Y.K. Fetisov Ferroelectrics: Letters Section . 2006,第1期

机译：铁氧体-压电分层结构：微波磁电效应和电场可调器件
2. FERMITE/FERROELECTRIC LAYERED STRUCTURES FOR MAGNETIC AND ELECTRIC FIELD TUNABLE MICROWAVE DEVICES [J] . A. A. SEMENOV, S. F. KARMANENKO, B. A. KALINIKOS Integrated Ferroelectrics . 2005,第1期

机译：用于磁性电磁场可调微波器件的Fermite /铁电层状结构
3. Theory of tunable magnetoelectric inductors in ferrite-piezoelectric layered composite [J] . Zhang Jitao, Chen Dongyu, Filippov D. A., Journal of Physics, D. Applied Physics: A Europhysics Journal . 2019,第16期

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4. The Electric Field Tuning Characteristics in the Strain-Mediated Ferrite-Piezoelectric Laminated Magnetoelectric Microwave Devices [C] . Hao-Miao Zhou, Fang Li, Juan-Hu Deng, EMR2012 . 2013

机译：应变介导的铁氧体 - 压电叠层磁电微波器件中的电场调谐特性
5. Crystal growth of hexaferrite architecture for magnetoelectrically tunable microwave semiconductor integrated devices. [D] . Hu, Bolin. 2015

机译：磁电可调微波半导体集成器件的六铁氧体结构的晶体生长。
6. Tunable Electric Properties of Bilayer α-GeTe with Different Interlayer Distances and External Electric Fields [O] . Dingbo Zhang, Zhongpo Zhou, Haiying Wang, 2018

机译：不同层间距离和外部电场的双层α-GeTe的可调电性能
7. Ferrite-Piezoelectric Heterostructures for Microwave and Millimeter Devices: Recent Advances and Future Possibilities [O] . G. Srinivasan, I. V. Zavislyak, M. Popov, 2014

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8. Microwave and Millimeter Wave Magnetoelectric Interactions in Engineered Multiferroics and Dual Electric and Magnetic Field Tunable Devices; Final rept. 15 Aug 2004-14 Jan 2008 [R] . Inivasan, G., Slavin, A., Mantese, J. 2008

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Ferrite-Piezoelectric Layered Structures: Microwave Magnetoelectric Effects and Electric Field Tunable Devices

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