Posted
Andreas Bluhm, Ángela Capel, Pablo Costa Rico, Anna Jenčová (Jan 17 2025).
Abstract: It is well-known that the conditional mutual information of a quantum state is zero if, and only if, the quantum state is a quantum Markov chain. Replacing the Umegaki relative entropy in the definition of the conditional mutual information by the Belavkin-Staszewski (BS) relative entropy, we obtain the BS-conditional mutual information, and we call the states with zero BS-conditional mutual information Belavkin-Staszewski quantum Markov chains. In this article, we establish a correspondence which relates quantum Markov chains and BS-quantum Markov chains. This correspondence allows us to find a recovery map for the BS-relative entropy in the spirit of the Petz recovery map. Moreover, we prove a structural decomposition of the Belavkin-Staszewski quantum Markov chains and also study states for which the BS-conditional mutual information is only approximately zero. As an application, we show that the conditional mutual information of the state associated to the Gibbs state of a quantum spin chain with local, finite-range, translation-invariant interactions at any positive temperature via this new correspondence decays superexponentially fast with the size of the middle system.
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