Litcius/Paper detail

Emergence and Breaking of Duality Symmetry in Generalized Fundamental Thermodynamic Relations

Zhiyue Lu, Hong Qian

2022Physical Review Letters13 citationsDOIOpen Access PDF

Abstract

Thermodynamics as limiting behaviors of statistics is generalized to arbitrary systems with probability a priori where the thermodynamic infinite-size limit is replaced by a multiple-measurement limit. A duality symmetry between Massieu's and Gibbs's entropy arises in the limit of infinitely repeated observations, yielding the Gibbs equation and Hill-Gibbs-Duhem equation (HGDE) as a dual pair. If a system has a thermodynamic limit satisfying Callen's postulate, entropy being an Eulerian function, the symmetry is lost: the HGDE reduces to the Gibbs-Duhem equation. This theory provides a de-mechanized foundation for classical and nanothermodynamics and offers a framework for distilling emergence from large data, free from underlying details.

Topics & Concepts

PhysicsThermodynamic limitEntropy (arrow of time)Limit (mathematics)Duality (order theory)LimitingMathematical physicsThermodynamic potentialA priori and a posterioriSymmetry breakingStatistical physicsSymmetry (geometry)Non-equilibrium thermodynamicsEulerian pathThermodynamic systemSecond law of thermodynamicsStatistical mechanicsEntropy productionTheoretical physicsFundamental thermodynamic relationThermodynamicsSymmetry groupQuantum mechanicsMathematicsClassical mechanicsExplicit symmetry breakingSpontaneous symmetry breakingT-symmetryPhase transitionThermodynamic equationsAdvanced Thermodynamics and Statistical MechanicsStatistical Mechanics and EntropyThermoelastic and Magnetoelastic Phenomena
Emergence and Breaking of Duality Symmetry in Generalized Fundamental Thermodynamic Relations | Litcius