Unifying quantum stochastic methods using Wick's theorem on the Keldysh contour

We present a new method based on the Keldysh formalism to derive stochastic master equations for the non-Markovian evolution of a quantum system coupled to a Gaussian environment. Using this approach, we develop a compact expression for the propagator of the system's dynamics, naturally formulated on the Keldysh contour. This expression is shown to be equivalent to other formulations, such as the stochastic von Neumann equation (SVNE). A key advantage of our method is its flexibility, as it can be easily adapted to account for initial system-bath correlations, and its simplicity, as it does not rely on path integration techniques or superoperator representations, unlike previous approaches. The insight offered by our technique allows us to make some considerations on the nature of the noises appearing in the SVNE. We prove that the solution of the SVNE can be written in terms of a single physical noise without loss of information. We then envision a semiclassical scenario in which such noise can be interpreted in terms of an initial measurement process on the environment.