Time-related issues in statistical mechanics

Larry Schulman (Clarkson U.)

2005-11-18 14:30, Salle Itzykson, IPhT
2005-11-25 14:30, Salle Itzykson, IPhT
2005-12-02 14:30, Salle Itzykson, IPhT
2005-12-09 14:30, Salle Itzykson, IPhT
2005-12-16 14:30, Salle Itzykson, IPhT

Model systems – both classical and quantum – exhibiting apparent irreversibility will be studied. Recurrence and time-symmetry paradoxes will be examined. With this understanding of de facto irreversibility, a connection will be sought to larger time asymmetries, in particular the cosmological one (other purported arrows of time will also be discussed). The relation between thermodynamics and cosmology will introduce further mathematical issues, in particular the solving of two-time boundary value problems.

In contrast to equilibrium statistical mechanics, dynamical issues are of paramount importance when systems are out of equilibrium temporarily or permanently, the latter characteristic of open systems. Such systems exhibit phase transitions, but traditional criteria (such as analyticity) run into difficulties when attempting to describe them. On the other hand, if a system can be described by stochastic dynamics, many of its properties, including phase transitions, the identification of order parameters and of macroscopic variables, follow directly from the dynamical rules. The paradigm is no longer analyticity, but asymptotics.

Finally, I will examine the consequences of assuming time-symmetry globally, both for classical and quantum systems. The possibility of using this perspective for ascertaining cosmological features in a way that is conceptually independent of existing methods will be taken up. At the quantum level, one can obtain definite measurement results, notwithstanding the absence of anything but pure unitary dynamics.

IPhT Courses
Short course title: 
Time in statistical mechanics
Arxiv classes: