Journal
MRS BULLETIN
Volume 43, Issue 11, Pages 848-853Publisher
CAMBRIDGE UNIV PRESS
DOI: 10.1557/mrs.2018.260
Keywords
magnetic; ferroelectric; piezoelectric; nanoscale; memory
Funding
- NSF Nanosystems Engineering Research Center for Translational Applications of Nanoscale Multiferroic Systems Cooperative Agreement Award [EEC-1160504]
- DARPA AMEBA Program: A Mechanically Based Antenna [HR0011-17-C-0117]
- University Center of Excellence: High-Rate Deformation Physics of Heterogeneous Materials (BAA-AFOSR 2011-16)
- Shanghai Pujiang Program [18PJ1408300]
- Taiwan Ministry of Science and Technology [105-2628-E-009-001-MY2]
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Strain-mediated magnetoelectric coupling provides a powerful method for controlling nanoscale magnetism with an electric voltage. This article reviews the initial use of macroscale composites and subsequent experimental control of magnetic thin films, nanoscale heterostructures, and single domains. The discussion highlights several characteristics enabling small, fast, and energy-efficient technologies. The second section covers applications where strain-mediated magnetoelectricity has been used, with emphasis on the storage, transmission, and processing of information (i.e., memory, antenna, and logic devices). These advances are order-of-magnitude improvements over conventional technologies, and open up exciting new possibilities.
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