Covariant Ergodic Quantum Markov Semigroups via Systems of Imprimitivity

We construct relativistic quantumMarkov semigroups from covariant completely positive maps. We proceed by generalizing a step in Stinespring’s dilation to a general system of imprimitivity and basing it on Poincarè group. The resulting noise channels are relativistically consistent and the method is applicable to any fundamental particle, though we demonstrate it for the case of light-like particles. The Krauss decomposition of the relativistically consistent completely positive identity preserving maps (our set up is in Heisenberg picture) enables us to construct the covariant quantum Markov semigroups that are uniformly continuous. We induce representations from the little groups to ensure the quantum Markov semigroups that are ergodic due to transitive systems imprimitivity.