Finite element modeling of resistive switching in Nb2O5-based memory device

Liu, Xinjun; Nandi, Sanjoy Kumar; Li, Shuai; Venkatachalam, Dinesh Kumar; Belay, Kidane; Elliman, Robert Glen; Faraone, L.; Martyniuk, M.

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2014 Conference on Optoelectronic and Microelectronic Materials & Devices

DOI: 10.1109/commad.2014.7038711

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Finite element modeling of resistive switching in Nb2O5-based memory device

Proceedings article published in 2014 by Xinjun Liu

, Sanjoy Kumar Nandi, Shuai Li, Dinesh Kumar Venkatachalam, Kidane Belay, Robert Glen Elliman

, L. Faraone, M. Martyniuk

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Abstract

A physical electro-thermal model that describes bipolar resistance switching in Nb2O5-based memory devices is presented based on the finite element method. The switching mechanism is assumed to be controlled by the diffusion and drift of oxygen vacancies in conductive filaments (CFs). The proposed model correctly describes the microscopic morphology of the CF during the gradual reset transition, which provides an in-depth understanding of the operation mechanism in resistive-switching memory devices.

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Finite element modeling of resistive switching in Nb2O5-based memory device

Abstract