Exact non-Markovian master equations: a generalized derivation for quadratic systems

Abstract: We derive an exact master equation that captures the dynamics of a quadratic quantum system linearly coupled to a Gaussian environment. Unlike previous approaches, our formulation applies universally to both bosonic and fermionic reservoirs, and remains valid even in the presence of initial system-environment correlations. Remarkably, the master equation is written without employing field objects, path integrals, or involved superoperators. As a result, it shows an explicit and extremely compact dependence on the dressed environment correlation function: this allows us to state exactly how sequential virtual interactions between the system and the environment eventually lead to non-Markovian evolution. In the weak-coupling limit, this dependence facilitates a straightforward recovery of the well-known Redfield equation at second order in the coupling.