Julius Degünther scite author profile

The Mpemba effect denotes an anomalous relaxation phenomenon where a system initially at a hot temperature cools faster than a system that starts at a less elevated temperature. We introduce an isothermal analog of this effect for a system prepared in a non-equilibrium steady state that then relaxes towards equilibrium. Here, the driving strength, which determines the initial non-equilibrium steady state, takes the role of the temperature in the original version. As a paradigm, we consider a particle initially driven by a non-conservative force along a one-dimensional periodic potential. We show that for an asymmetric potential relaxation from a strongly driven initial state is faster than from a more weakly driven one at least for one of the two possible directions of driving. These results are first obtained through perturbation theory in the strength of the potential and then extended to potentials of arbitrary strength through topological arguments.

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Phase shift in periodically driven non-equilibrium systems: its identification and a bound

Degünther¹,

Koyuk²,

Seifert³

2022

J. Stat. Mech.

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Time-dependently driven stochastic systems form a vast and manifold class of non-equilibrium systems used to model important applications on small length scales such as bit erasure protocols or microscopic heat engines. One property that unites all these quite different systems is some form of lag between the driving of the system and its response. For periodic steady states, we quantify this lag by introducing a generalized phase difference and prove a tight upper bound for it. In its most general version, this bound depends only on the relative speed of the driving.

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Julius Degünther

Time-Resolved Statistics of Snippets as General Framework for Model-Free Entropy Estimators

Anomalous relaxation from a non-equilibrium steady state: An isothermal analog of the Mpemba effect

Phase shift in periodically driven non-equilibrium systems: its identification and a bound

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