Abstract

We discuss the problem of deriving an exact Markovian master equation from dynamics without resorting to approximation schemes such as the weak coupling limit, Boltzmann-Grad limit, etc. Mathematically, it is the problem of the existence of a suitable positivity preserving operator Λ such that the unitary group Ut induced from dynamics satisfies the intertwining relation $$ \Lambda {{\text{U}}_{\text{t}}} = {\text{W}}_{\text{t}}^*\Lambda {\text{ }},{\text{ t }}_ = ^ > {\text{0}} $$ with the contraction semigroup Wt of a strongly irreversible stochastic Markov process. Two cases are of special interest: i) Λ = P is a projection operator, ii) Λ has a densely defined inverse. Our recent work, which we summarize here, shows that the class of (classical) dynamical systems for which a suitable projection operator satisfying the above intertwining relation exists is identical with the class of K flows or K systems. As a corollary of our consideration it follows that the function ∫ ρ t ln ρ t dµ with ρ t denoting the coarse-grained distribution with respect to a K partition obtained from pt ≡ Utp is a Boltzmann-type H function for K flows. This is not in contradiction with the time-reversal (velocity-inversion) symmetry of dynamical evolution as the suitably constructed projection operator or the Λ transformation are dynamics dependent and break the time reversal.