New proof via Lyapunov exponents that the largest decay rate Γ_max in a d-dimensional quantum master equation satisfies Γ_max ≤ κ_d times the sum of the other d²-1 decay rates, with κ_d depending only on d and the map class.
Beyond Complete Positivity
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abstract
We provide a general and consistent formulation for linear subsystem quantum dynamical maps, developed from a minimal set of postulates, primary among which is a relaxation of the usual, restrictive assumption of uncorrelated initial system-bath states. We describe the space of possibilities admitted by this formulation, namely that, far from being limited to only completely positive (CP) maps, essentially any $\mathbb{C}$-linear, Hermiticity-preserving, trace-preserving subsystem map can arise as a legitimate subsystem dynamical map from a joint unitary evolution of a system coupled to a bath. The price paid for this added generality is a trade-off between the set of admissible initial states and the allowed set of joint system-bath unitary evolutions. As an application we present a simple example of a non-CP map constructed as a subsystem dynamical map that violates some fundamental inequalities in quantum information theory, such as the quantum data processing inequality.
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UNVERDICTED 2representative citing papers
Domain restrictions for non-completely positive maps on isotropic states become increasingly severe with system dimension, revealing an intrinsic limitation of the compatibility approach to open quantum dynamics.
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Universal bound on the Lyapunov spectrum of quantum master equations
New proof via Lyapunov exponents that the largest decay rate Γ_max in a d-dimensional quantum master equation satisfies Γ_max ≤ κ_d times the sum of the other d²-1 decay rates, with κ_d depending only on d and the map class.
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Open quantum dynamics without Complete Positivity: a criticism
Domain restrictions for non-completely positive maps on isotropic states become increasingly severe with system dimension, revealing an intrinsic limitation of the compatibility approach to open quantum dynamics.