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Related Experiment Video

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Nonequilibrium corrections to gradient flow.

Christian Maes1, Karel Netočný2

  • 1Instituut voor Theoretische Fysica, KU Leuven, 3001 Leuven, Belgium.

Chaos (Woodbury, N.Y.)
|August 3, 2019
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Summary
This summary is machine-generated.

Forces on probes in nonequilibrium media are typically nongradient. This arises from a "twist" between excess frenesy and entropy flux, influenced by probe coupling or position changes.

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Area of Science:

  • Non-equilibrium physics
  • Statistical mechanics
  • Thermodynamics

Background:

  • Forces in physical systems are often gradient-based, derivable from a potential.
  • Non-equilibrium systems exhibit complex behaviors not captured by equilibrium assumptions.
  • Understanding forces in dynamic media is crucial for various scientific and engineering applications.

Purpose of the Study:

  • To elucidate the mechanism behind nongradient forces in nonequilibrium media.
  • To explain the origin of these forces using nonequilibrium response theory.
  • To identify factors influencing the emergence of nongradient forces.

Main Methods:

  • Application of nonequilibrium response theory.
  • Analysis of the relationship between excess frenesy and entropy flux.
  • Investigation of probe coupling and positional effects.

Main Results:

  • Demonstration that forces on probes in nonequilibrium media are generally nongradient.
  • Identification of a systematic
  • twist
  • between excess frenesy and entropy flux as the cause.
  • Confirmation that probe coupling and position modulate these nongradient forces.

Conclusions:

  • Nongradient forces are an inherent feature of probe interactions in nonequilibrium environments.
  • The observed phenomenon is explained by a specific interplay of thermodynamic quantities.
  • This work provides a theoretical framework for understanding complex forces in dynamic systems.