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Unifying Entanglement with Uncertainty via Symmetries of Observable Algebras

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arxiv 1710.10038 v3 pith:CMLZKTJG submitted 2017-10-27 quant-ph

Unifying Entanglement with Uncertainty via Symmetries of Observable Algebras

classification quant-ph
keywords entanglementgeneralizeduncertaintycommutingstrongsubalgebrastheoryalgebras
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Strong subadditivity goes beyond the tensored subsystem and commuting operator models. As previously noted by Petz and later by Araki and Moriya, two subalgebras of observables satisfy a generalized SSA-like inequality if they form a commuting square. We explore the interpretation and consequences in finite dimensions, connecting various entropic uncertainty relations for mutually unbiased bases with the positivity of a generalized conditional mutual information (CMI), and with inequalities on relative entropies of coherence and asymmetry. We obtain a bipartite resource theory of operations under which the two subalgebras are respectively invariant and covariant, with CMI as a monotone, and generalized non-classical monotones based on squashed entanglement and entanglement of formation. Free transformations support conversion between entanglement and uncertainty-based configurations, as "EPR <-> 2UCR." Our theory quantifies the common non-classicality in entanglement and uncertainty, implying a strong conceptual link between these fundamentally quantum phenomena.

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  1. Resource-Theoretic Quantifiers of Weak and Strong Symmetry Breaking: Strong Entanglement Asymmetry and Beyond

    hep-th 2026-01 unverdicted novelty 7.0

    A resource theory for strong symmetry breaking is formulated, with the variance of the conserved quantity characterizing its asymptotic manipulation for U(1) symmetry and enabling tracking of weak-to-strong conversion...