Thermally assisted current-driven domain-wall motion

R. A. Duine; A. S. Núñez; A. H. MacDonald

doi:10.1103/PhysRevLett.98.056605

Thermally assisted current-driven domain-wall motion

R. A. Duine, A. S. Núñez, A. H. MacDonald

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Starting from the stochastic Landau-Lifschitz-Gilbert equation, we derive Langevin equations that describe the nonzero-temperature dynamics of a rigid domain wall. We derive an expression for the average drift velocity of the domain wall ṙdw as a function of the applied current, and find qualitative agreement with recent magnetic semiconductor experiments. Our model implies that at any nonzero-temperature ṙdw initially varies linearly with current, even in the absence of nonadiabatic spin torques. © 2007 The American Physical Society.

Original language	English
Journal	Physical Review Letters
Volume	98
Issue number	5
DOIs	https://doi.org/10.1103/PhysRevLett.98.056605
Publication status	Published - 2 Feb 2007

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title = "Thermally assisted current-driven domain-wall motion",

abstract = "Starting from the stochastic Landau-Lifschitz-Gilbert equation, we derive Langevin equations that describe the nonzero-temperature dynamics of a rigid domain wall. We derive an expression for the average drift velocity of the domain wall ṙdw as a function of the applied current, and find qualitative agreement with recent magnetic semiconductor experiments. Our model implies that at any nonzero-temperature ṙdw initially varies linearly with current, even in the absence of nonadiabatic spin torques. {\textcopyright} 2007 The American Physical Society.",

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AB - Starting from the stochastic Landau-Lifschitz-Gilbert equation, we derive Langevin equations that describe the nonzero-temperature dynamics of a rigid domain wall. We derive an expression for the average drift velocity of the domain wall ṙdw as a function of the applied current, and find qualitative agreement with recent magnetic semiconductor experiments. Our model implies that at any nonzero-temperature ṙdw initially varies linearly with current, even in the absence of nonadiabatic spin torques. © 2007 The American Physical Society.

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Thermally assisted current-driven domain-wall motion

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