Time-Dependent Landau-Ginzburg Equation-Based Ferroelectric Tunnel Junction Modeling With Dynamic Response and Multi-Domain Characteristics

Authors :: Gan Liu
Jiuren Zhou
Qiwen Kong
Gengchiau Liang
Leming Jiao
Sheng Luo
Xiaolin Wang
Z. H. Zhou
Zijie Zheng
Xiao Gong
Dong Zhang
Chen Sun
Source :: IEEE Electron Device Letters. 43:158-161
Publication Year :: 2022
Publisher :: Institute of Electrical and Electronics Engineers (IEEE), 2022.
Abstract: Overcoming the drawbacks of the existing ferroelectric tunnel junction (FTJ) models which ignore the dynamic or multi-domain switching behaviors, we develop a more comprehensive FTJ model by combining the Time-Dependent Landau-Ginzburg (TDLG) equations to solve the multi-domain dynamic switching of ferroelectric layer and the Non-Equilibrium Green Function (NEGF) to solve the tunneling current. The model successfully reproduces the experimental results of our fabricated metal-ferroelectrics-insulator-semiconductor (MFIS) FTJ. This model empowers us to predict both the dynamic and multi-state switching of FTJ, showing its promise for applications in the high-density data storage and analog computing.

Subjects :: Physics
Dynamic switching
business.industry
Analog computer
Condensed Matter::Mesoscopic Systems and Quantum Hall Effect
Topology
Ferroelectricity
Electronic, Optical and Magnetic Materials
law.invention
Multi domain
Tunnel junction
law
Computer data storage
Tunneling current
Electrical and Electronic Engineering
business

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