Overlapping Resonances in Open Quantum Systems

Abstract

An N-level quantum system is coupled to a bosonic heat reservoir at positive temperature. We analyze the system-reservoir dynamics in the following regime: The strength λ of the system-reservoir coupling is fixed and small, but larger than the spacing σ of system energy levels. For vanishing σ there is a manifold of invariant system-reservoir states and for σ>0 the only invariant state is the joint equilibrium. The manifold is invariant for σ=0 but becomes quasi-invariant for σ>0. Namely, on a first time-scale of the order 1/λ2, initial states approach the manifold. Then they converge to the joint equilibrium state on a much larger time-scale of the order λ2/σ2. We give a detailed expansion of the system-reservoir evolution showing the above scenario.