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arxiv: 2508.08247 · v2 · pith:SVCSV5YKnew · submitted 2025-08-11 · ❄️ cond-mat.stat-mech · physics.bio-ph

Identifying nonequilibrium degrees of freedom in high-dimensional stochastic systems

classification ❄️ cond-mat.stat-mech physics.bio-ph
keywords nonequilibriumdegreesfreedomhigh-dimensionalirreversiblesystemsclassifierembeddings
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Any coarse-grained description of a nonequilibrium system should faithfully represent its latent irreversible degrees of freedom. However, standard dimensionality reduction methods typically prioritize accurate reconstruction over physical relevance. Here, we introduce a model-free approach to identify irreversible degrees of freedom in stochastic systems that are in a nonequilibrium steady state. Our method leverages the insight that a black-box classifier, trained to differentiate between forward and time-reversed trajectories, implicitly estimates the local entropy production rate. By parameterizing this classifier as a quadratic form of learned state representations, we obtain nonlinear embeddings of high-dimensional state-space dynamics, which we term Latent Embeddings of Nonequilibrium Systems (LENS). LENS effectively identifies low-dimensional irreversible flows and provides a scalable, learning-based strategy for estimating entropy production rates directly from high-dimensional time series data.

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