Dynamics of the stress-mediated magnetoelectric memory cell N×(TbCo2/FeCo)/PMN-PT - Archive ouverte HAL
Journal Articles Journal of Magnetism and Magnetic Materials Year : 2018

Dynamics of the stress-mediated magnetoelectric memory cell N×(TbCo2/FeCo)/PMN-PT

Abstract

Stress-mediated magnetoelectric heterostructures represent a very promising approach for the realization of ultra-low energy Random Access Memories. The magnetoelectric writing of information has been extensively studied in the past, but it was demonstrated only recently that the magnetoelectric effect can also provide means for reading the stored information. We hereby theoretically study the dynamic behaviour of a magnetoelectric random access memory cell (MELRAM) typically composed of a magnetostric-tive multilayer N Â ðTbCo 2 =FeCoÞ that is elastically coupled with a h0 1 1i PMN-PT ferroelectric crystal and placed in a Wheatstone bridge-like configuration. The numerical resolution of the LLG and electrodynam-ics equation system demonstrates high speed write and read operations with an associated extra-low energy consumption. In this model, the reading energy for a 50 nm cell size is estimated to be less than 5 aJ/bit.
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Dates and versions

hal-02318299 , version 1 (24-09-2020)

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Vladimir Preobrazhensky, Alexey Klimov, Nicolas Tiercelin, Yannick Dusch, Stefano Giordano, et al.. Dynamics of the stress-mediated magnetoelectric memory cell N×(TbCo2/FeCo)/PMN-PT. Journal of Magnetism and Magnetic Materials, 2018, 459, pp.66-70. ⟨10.1016/j.jmmm.2017.12.028⟩. ⟨hal-02318299⟩
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