A direct algebraic proof for the non-positivity of Liouvillian eigenvalues in Markovian quantum dynamics (2504.02256v1)

Abstract: Markovian open quantum systems are described by the Lindblad master equation $\partial_t\rho =\mathcal{L}(\rho)$, where $\rho$ denotes the system's density operator and $\mathcal{L}$ the Liouville super-operator, which is also known as the Liouvillian. For systems with a finite-dimensional Hilbert space, it is a fundamental property of the Liouvillian, that the real-parts of all its eigenvalues are non-positive which, in physical terms, corresponds to the stability of the system. The usual argument for this property is indirect, using that $\mathcal{L}$ generates a quantum channel and that quantum channels are contractive. We provide a direct algebraic proof based on the Lindblad form of Liouvillians.