Bidirectional tunable ferrite-piezoelectric trilayer magnetoelectric inductors

A tunable magnetoelectric inductor composed of a symmetrical trilayer of Ga-doped NiZn ferrite and PZT in a solenoid has been developed. Under the influence of external electric/magnetic fields, the permeability variation arising from magnetostriction and piezoelectric strain in the composite result...

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Veröffentlicht in:	Applied physics letters 2018-09, Vol.113 (11)
Hauptverfasser:	Zhang, Jitao, Chen, Dongyu, Filippov, D. A., Li, Kang, Zhang, Qingfang, Jiang, Liying, Zhu, Weiwei, Cao, Lingzhi, Srinivasan, Gopalan
Format:	Artikel
Sprache:	eng
Schlagworte:	Acoustic resonance Applied physics Ferrites Inductance Inductors Integrated circuits Magnetic fields Magnetic permeability Magnetic resonance Magnetostriction Piezoelectricity
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container_title	Applied physics letters
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creator	Zhang, Jitao Chen, Dongyu Filippov, D. A. Li, Kang Zhang, Qingfang Jiang, Liying Zhu, Weiwei Cao, Lingzhi Srinivasan, Gopalan
description	A tunable magnetoelectric inductor composed of a symmetrical trilayer of Ga-doped NiZn ferrite and PZT in a solenoid has been developed. Under the influence of external electric/magnetic fields, the permeability variation arising from magnetostriction and piezoelectric strain in the composite results in a bidirectional tuning of the inductance L with a maximum tunability of 571% at a lower magnetic field. The largest variation in L occurs for frequencies centered around longitudinal acoustic resonance. The dual and large tunability of L is of importance for applications in compact and power-efficient integrated circuits.
doi_str_mv	10.1063/1.5044738
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subjects	Acoustic resonance Applied physics Ferrites Inductance Inductors Integrated circuits Magnetic fields Magnetic permeability Magnetic resonance Magnetostriction Piezoelectricity
title	Bidirectional tunable ferrite-piezoelectric trilayer magnetoelectric inductors
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