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Main Authors: Sachs, Matthias, Stark, Wojciech G., Maurer, Reinhard J., Ortner, Christoph
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2407.13935
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author Sachs, Matthias
Stark, Wojciech G.
Maurer, Reinhard J.
Ortner, Christoph
author_facet Sachs, Matthias
Stark, Wojciech G.
Maurer, Reinhard J.
Ortner, Christoph
contents Dynamics of coarse-grained particle systems derived via the Mori-Zwanzig projection formalism commonly take the form of a (generalized) Langevin equation with configuration-dependent friction and diffusion tensors. In this article, we introduce a class of equivariant representations of tensor-valued functions based on the Atomic Cluster Expansion (ACE) framework that allows for efficient learning of such configuration-dependent friction and diffusion tensors from data. Besides satisfying the correct equivariance properties with respect to the Euclidean group E(3), the resulting heat bath models satisfy a fluctuation-dissipation relation. Moreover, our models can be extended to include additional symmetries, such as momentum conservation, to preserve the hydrodynamic properties of the particle system. We demonstrate the capabilities of the model by constructing a model of configuration-dependent tensorial electronic friction calculated from first principles that arises during reactive molecular dynamics at metal surfaces.
format Preprint
id arxiv_https___arxiv_org_abs_2407_13935
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Equivariant Representation of Configuration-Dependent Friction Tensors in Langevin Heatbaths
Sachs, Matthias
Stark, Wojciech G.
Maurer, Reinhard J.
Ortner, Christoph
Materials Science
Dynamics of coarse-grained particle systems derived via the Mori-Zwanzig projection formalism commonly take the form of a (generalized) Langevin equation with configuration-dependent friction and diffusion tensors. In this article, we introduce a class of equivariant representations of tensor-valued functions based on the Atomic Cluster Expansion (ACE) framework that allows for efficient learning of such configuration-dependent friction and diffusion tensors from data. Besides satisfying the correct equivariance properties with respect to the Euclidean group E(3), the resulting heat bath models satisfy a fluctuation-dissipation relation. Moreover, our models can be extended to include additional symmetries, such as momentum conservation, to preserve the hydrodynamic properties of the particle system. We demonstrate the capabilities of the model by constructing a model of configuration-dependent tensorial electronic friction calculated from first principles that arises during reactive molecular dynamics at metal surfaces.
title Equivariant Representation of Configuration-Dependent Friction Tensors in Langevin Heatbaths
topic Materials Science
url https://arxiv.org/abs/2407.13935