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Paper detail

Information topologies on non-commutative state spaces

We define an information topology (I-topology) and a reverse information topology (rI-topology) on the state space of a C*-subalgebra of Mat(n,C). These topologies arise from sequential convergence with respect to the relative entropy. We prove that open disks, with respect to the relative entropy, define a base for them, while Csiszar has shown in 1967 that the analogue is wrong for probability measures on a countably infinite set. The I-topology is finer than the norm topology, it disconnects the convex state space into its faces. The rI-topology is intermediate between these topologies. We complete two fundamental theorems of information geometry to the full state space, by taking the closure in the rI-topology. The norm topology is too coarse for this aim only for a non-commutative algebra, so its discrepancy to the rI-topology belongs to the quantum domain. We apply our results to the maximization of the von Neumann entropy under linear constraints and to the maximization of quantum correlations.

preprint2013arXivOpen access
Stephan Weis
math-phmath.MP
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