Compact modeling of perpendicular-anisotropy CoFeB/MgO magnetic tunnel junctions

Yue Zhang; Weisheng Zhao; Yahya Lakys; Jacques Olivier Klein; Joo Von Kim; Dafiné Ravelosona; Claude Chappert

doi:10.1109/TED.2011.2178416

Compact modeling of perpendicular-anisotropy CoFeB/MgO magnetic tunnel junctions

Yue Zhang^*
, Weisheng Zhao
, Yahya Lakys
, Jacques Olivier Klein
, Joo Von Kim
, Dafiné Ravelosona
, Claude Chappert

^*此作品的通讯作者

Université Paris-Saclay

科研成果: 期刊稿件 › 文章 › 同行评审

387 引用（Scopus）

摘要

Magnetic tunnel junctions (MTJs) composed of ferromagnetic layers with perpendicular magnetic anisotropy (PMA) are of great interest for achieving high-density nonvolatile memory and logic chips owing to its scalability potential together with high thermal stability. Recent progress has demonstrated a capacity for high-speed performance and low power consumption through current-induced magnetization switching. In this paper, we present a compact model of the CoFeB/MgO PMA MTJ, a system exhibiting the best tunnel magnetoresistance ratio and switching performance. It integrates the physical models of static, dynamic, and stochastic behaviors; many experimental parameters are directly included to improve the agreement of simulation with experimental measurements. Mixed simulation based on the 65-nm technology node of a magnetic flip-flop validates its relevance and efficiency for MTJ/CMOS memory and logic chip design.

源语言	英语
文章编号	6125245
页（从-至）	819-826
页数	8
期刊	IEEE Transactions on Electron Devices
卷	59
期	3
DOI	https://doi.org/10.1109/TED.2011.2178416
出版状态	已出版 - 3月 2012
已对外发布	是

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title = "Compact modeling of perpendicular-anisotropy CoFeB/MgO magnetic tunnel junctions",

abstract = "Magnetic tunnel junctions (MTJs) composed of ferromagnetic layers with perpendicular magnetic anisotropy (PMA) are of great interest for achieving high-density nonvolatile memory and logic chips owing to its scalability potential together with high thermal stability. Recent progress has demonstrated a capacity for high-speed performance and low power consumption through current-induced magnetization switching. In this paper, we present a compact model of the CoFeB/MgO PMA MTJ, a system exhibiting the best tunnel magnetoresistance ratio and switching performance. It integrates the physical models of static, dynamic, and stochastic behaviors; many experimental parameters are directly included to improve the agreement of simulation with experimental measurements. Mixed simulation based on the 65-nm technology node of a magnetic flip-flop validates its relevance and efficiency for MTJ/CMOS memory and logic chip design.",

keywords = "Compact modeling, magnetic tunnel junction (MTJ), perpendicular magnetic anisotropy (PMA), spin transfer torque (STT)",

author = "Yue Zhang and Weisheng Zhao and Yahya Lakys and Klein, \{Jacques Olivier\} and Kim, \{Joo Von\} and Dafin{\'e} Ravelosona and Claude Chappert",

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doi = "10.1109/TED.2011.2178416",

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AU - Zhang, Yue

AU - Zhao, Weisheng

AU - Lakys, Yahya

AU - Klein, Jacques Olivier

AU - Kim, Joo Von

AU - Ravelosona, Dafiné

AU - Chappert, Claude

PY - 2012/3

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N2 - Magnetic tunnel junctions (MTJs) composed of ferromagnetic layers with perpendicular magnetic anisotropy (PMA) are of great interest for achieving high-density nonvolatile memory and logic chips owing to its scalability potential together with high thermal stability. Recent progress has demonstrated a capacity for high-speed performance and low power consumption through current-induced magnetization switching. In this paper, we present a compact model of the CoFeB/MgO PMA MTJ, a system exhibiting the best tunnel magnetoresistance ratio and switching performance. It integrates the physical models of static, dynamic, and stochastic behaviors; many experimental parameters are directly included to improve the agreement of simulation with experimental measurements. Mixed simulation based on the 65-nm technology node of a magnetic flip-flop validates its relevance and efficiency for MTJ/CMOS memory and logic chip design.

AB - Magnetic tunnel junctions (MTJs) composed of ferromagnetic layers with perpendicular magnetic anisotropy (PMA) are of great interest for achieving high-density nonvolatile memory and logic chips owing to its scalability potential together with high thermal stability. Recent progress has demonstrated a capacity for high-speed performance and low power consumption through current-induced magnetization switching. In this paper, we present a compact model of the CoFeB/MgO PMA MTJ, a system exhibiting the best tunnel magnetoresistance ratio and switching performance. It integrates the physical models of static, dynamic, and stochastic behaviors; many experimental parameters are directly included to improve the agreement of simulation with experimental measurements. Mixed simulation based on the 65-nm technology node of a magnetic flip-flop validates its relevance and efficiency for MTJ/CMOS memory and logic chip design.

KW - Compact modeling

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KW - perpendicular magnetic anisotropy (PMA)

KW - spin transfer torque (STT)

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M3 - 文章

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Compact modeling of perpendicular-anisotropy CoFeB/MgO magnetic tunnel junctions

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