Irreversible Evolution of Open Systems and the Nonequilibrium Statistical Operator Method

Abstract: The effective approach to the foundation of the nonequilibrium statistical mechanics on the basis of dynamics was formulated by Bogoliubov in his seminal works. His ideas of reduced description were proved as very powerful and found a broad applicability to quite general time-dependent problems of physics and mechanics. In this paper we analyzed thoroughly the time evolution of open systems in context of the nonequilibrium statistical operator method (NSO). This method extends the statistical method of Gibbs to irreversible processes and incorporates the ideas of reduced description. The purpose of the present study was to elucidate the basic aspects of the NSO method and some few selected approaches to the nonequilibrium statistical mechanics. The suitable procedure of averaging (smoothing) and the notion of irreversibility were discussed in this context. We were focused on the physical consistency of the method as well as on its operational ability to emphasize and address a few important reasons for such a workability.