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Main Authors: Hlushchenko, Anton V., Andrieieva, Oksana L., Bratchenko, Mykhailo I., Styervoyedov, Andriy M., Polozhiy, Kostyantyn I., Chechkin, Aleksei V.
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2605.08357
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author Hlushchenko, Anton V.
Andrieieva, Oksana L.
Bratchenko, Mykhailo I.
Styervoyedov, Andriy M.
Polozhiy, Kostyantyn I.
Chechkin, Aleksei V.
author_facet Hlushchenko, Anton V.
Andrieieva, Oksana L.
Bratchenko, Mykhailo I.
Styervoyedov, Andriy M.
Polozhiy, Kostyantyn I.
Chechkin, Aleksei V.
contents We investigate the impact of line-edge roughness on current-driven domain wall dynamics in ferromagnetic racetracks. Modeling the edge disorder as a spatially correlated Ornstein-Uhlenbeck process, we demonstrate that even minimal experimentally relevant roughness induces pronounced stochastic pinning of domain walls. Notably, this stochasticity of the current-driven motion arises purely from spatial disorder, even in the absence of thermal fluctuations. The probability of a domain wall to reach a given position exhibits a robust sigmoidal dependence on the applied current, reflecting an effective distribution of depinning thresholds. At the same time, the underlying dynamics is highly nontrivial: the mean velocity exhibits a nonlinear dependence on both time and current, while the mean-square displacement exhibits a ballistic regime at short times followed by saturation due to trapping at pinning sites. These results demonstrate that line-edge roughness provides a controllable source of stochasticity and enables p-bit-like functionality in racetrack systems, offering a pathway toward hardware implementations of probabilistic and neuromorphic computing.
format Preprint
id arxiv_https___arxiv_org_abs_2605_08357
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Stochastic Dynamics of Domain Wall on a Racetrack: Impact of Line-Edge Roughness
Hlushchenko, Anton V.
Andrieieva, Oksana L.
Bratchenko, Mykhailo I.
Styervoyedov, Andriy M.
Polozhiy, Kostyantyn I.
Chechkin, Aleksei V.
Disordered Systems and Neural Networks
We investigate the impact of line-edge roughness on current-driven domain wall dynamics in ferromagnetic racetracks. Modeling the edge disorder as a spatially correlated Ornstein-Uhlenbeck process, we demonstrate that even minimal experimentally relevant roughness induces pronounced stochastic pinning of domain walls. Notably, this stochasticity of the current-driven motion arises purely from spatial disorder, even in the absence of thermal fluctuations. The probability of a domain wall to reach a given position exhibits a robust sigmoidal dependence on the applied current, reflecting an effective distribution of depinning thresholds. At the same time, the underlying dynamics is highly nontrivial: the mean velocity exhibits a nonlinear dependence on both time and current, while the mean-square displacement exhibits a ballistic regime at short times followed by saturation due to trapping at pinning sites. These results demonstrate that line-edge roughness provides a controllable source of stochasticity and enables p-bit-like functionality in racetrack systems, offering a pathway toward hardware implementations of probabilistic and neuromorphic computing.
title Stochastic Dynamics of Domain Wall on a Racetrack: Impact of Line-Edge Roughness
topic Disordered Systems and Neural Networks
url https://arxiv.org/abs/2605.08357