Piero Olla
Published 2024-08-31Version 1
The behavior of lattice models in which time reversibility is enforced at the level of trajectories (microscopic reversibility) is studied analytically. Conditions for ergodicity breaking are explored, and a few examples of systems characterized by an additional conserved quantity besides energy are presented. All the systems are characterized by ergodicity restoration when put in contact with a thermal bath, except for specific choices of the interactions between the atoms in the system and the bath. The study shows that the additional conserved quantities return to play a role in non-equilibrium conditions, with behaviors similar to those of some mesoscale systems, in which the transition rates satisfy detailed balance but not microscopic reversibility.
Comments: 11 page, 4 figures
Heat transport in oscillator chains with long-range interactions coupled to thermal reservoirs
High order derivatives of Boltzmann microcanonical entropy with an additional conserved quantity
Simulation of heat transport in low-dimensional oscillator lattices
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