Magnetostrictive stress reconfigurable thin film resonators for near direct current magnetoelectric sensors

Jillian Kiser; Ron Lacomb; Konrad Bussmann; Christopher J. Hawley; Jonathan E. Spanier; Xin Zhuang; Christophe Dolabdjian; Sam Lofland; Peter Finkel

doi:10.1063/1.4866044

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Magnetostrictive stress reconfigurable thin film resonators for near direct current magnetoelectric sensors

Journal article

Open access

Peer reviewed

Magnetostrictive stress reconfigurable thin film resonators for near direct current magnetoelectric sensors

Jillian Kiser, Ron Lacomb, Konrad Bussmann, Christopher J. Hawley, Jonathan E. Spanier, Xin Zhuang, Christophe Dolabdjian, Sam Lofland and Peter Finkel

Applied physics letters, v 104(7), pP072408

2014

DOI: https://doi.org/10.1063/1.4866044

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Abstract

Electromagnetism

Engineering Sciences

The magnetic response of microdevices is significantly enhanced at structural resonance allowing for improved sensitivity and signal-to-noise ratio. Here, free-standing thin film CoFe bridge resonators have been fabricated and investigated. It is shown that the strong magnetic field dependence of the fundamental resonance frequency is a function of magnetic field orientation due to stress-induced anisotropy. These devices may offer a new approach for developing fully integrated resonant magnetic field sensing technology

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15 citations in Scopus

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Title: Magnetostrictive stress reconfigurable thin film resonators for near direct current magnetoelectric sensors
Creators: Jillian Kiser - Naval Undersea Warfare Center
Ron Lacomb - Naval Undersea Warfare Center
Konrad Bussmann - United States Naval Research Laboratory
Christopher J. Hawley - Department of Materials Science and Engineering and A. J. Drexel Nanotechnology Institute ( Philadelfia, USA)
Jonathan E. Spanier - Department of Materials Science and Engineering and A. J. Drexel Nanotechnology Institute ( Philadelfia, USA)
Xin Zhuang - Normandie Université
Christophe Dolabdjian - Normandie Université
Sam Lofland - Department of Physics, Rowan University, Glassboro
Peter Finkel - Naval Undersea Warfare Center
Publication Details: Applied physics letters, v 104(7), pP072408
Publisher: American Institute of Physics
Resource Type: Journal article
Language: English
Academic Unit: Mechanical Engineering and Mechanics
Web of Science ID: WOS:000332038500038
Scopus ID: 2-s2.0-84897432871
Other Identifier: 991019168611704721

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Collaboration types: Domestic collaboration; International collaboration
Web of Science research areas: Physics, Applied

Magnetostrictive stress reconfigurable thin film resonators for near direct current magnetoelectric sensors

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Abstract

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UN Sustainable Development Goals (SDGs)

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