Theory of Non-equilibrium Asymptotic State Thermodynamics

Chi-Ho Cheng^1*, Pik-Yin Lai²

¹Physics, National Changhua University of Education, Changhua, Taiwan
²Physics, National Central University, Chungli, Taiwan

* Presenter:Chi-Ho Cheng, email:phcch@cc.ncue.edu.tw

A generalized class of non-equilibrium state, called non-equilibrium asymptotic state (NEAS), is proposed.
The NEAS is constructed within the framework of the Fokker-Planck equations in thermodynamic limit.
Besides the usual equilibrium state and non-equilibrium steady state (NESS), the class of NEAS could also
cover non-equilibrium periodic state (NEPS) in which its dynamics shows periodicity, non-equilibrium quasi-periodic state (NEQPS),
and non-equilibrium chaotic state (NECS) in which its dynamics becomes chaotic.
Based on the theory of NEAS thermodynamics, the corresponding thermodynamics of
different NEAS could also be determined.
Finally the interacting Ehrenfest urn ring model is used as an example to illustrate
how different kinds of NEAS (equilibrium state, uniform NESS, non-uniform NESS, NEPS) in three-urn case are identified in our framework.
In particular, the thermodynamics of NEPS and its phase transitions to other types of NEAS are studied.

Keywords: Statistical Mechanics, Non-equilibrium Phenomena, Ehrenfest Urn Model