A ferroelectric memristor

André Chanthbouala¹, Vincent Garcia, Ryan O Cherifi, Karim Bouzehouane, Stéphane Fusil, Xavier Moya, Stéphane Xavier, Hiroyuki Yamada, Cyrile Deranlot, Neil D Mathur, Manuel Bibes, Agnès Barthélémy, Julie Grollier

Affiliations

PMID: 22983431
DOI: 10.1038/nmat3415

A ferroelectric memristor

André Chanthbouala et al. Nat Mater. 2012 Oct.

. 2012 Oct;11(10):860-4.

doi: 10.1038/nmat3415. Epub 2012 Sep 16.

Authors

Affiliation

¹ Unité Mixte de Physique CNRS/Thales, 1 Avenue Augustin Fresnel, Campus de l'Ecole Polytechnique, 91767 Palaiseau, France.

PMID: 22983431
DOI: 10.1038/nmat3415

Abstract

Memristors are continuously tunable resistors that emulate biological synapses. Conceptualized in the 1970s, they traditionally operate by voltage-induced displacements of matter, although the details of the mechanism remain under debate. Purely electronic memristors based on well-established physical phenomena with albeit modest resistance changes have also emerged. Here we demonstrate that voltage-controlled domain configurations in ferroelectric tunnel barriers yield memristive behaviour with resistance variations exceeding two orders of magnitude and a 10 ns operation speed. Using models of ferroelectric-domain nucleation and growth, we explain the quasi-continuous resistance variations and derive a simple analytical expression for the memristive effect. Our results suggest new opportunities for ferroelectrics as the hardware basis of future neuromorphic computational architectures.

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A ferroelectric memristor

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A ferroelectric memristor

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