Five orthogonal three-qubit states exhibit strong nonlocality if and only if they contain imaginary components, forming the smallest unextendible biseparable basis of cardinality d² + d - 1 while spanning a locally indistinguishable subspace whose complement yields distillable genuine entanglement.
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3 Pith papers cite this work. Polarity classification is still indexing.
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2026 3representative citing papers
Site-dependent dephasing optimized per site boosts quantum transport efficiency in localized 1D lattices beyond uniform dephasing by increasing steady-state delocalization.
A unified survey of state-distinguishability, CP-divisibility, and process-tensor approaches to genuine quantum non-Markovianity based on information backflow.
citing papers explorer
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Strong nonlocality with more imaginarity and less entanglement
Five orthogonal three-qubit states exhibit strong nonlocality if and only if they contain imaginary components, forming the smallest unextendible biseparable basis of cardinality d² + d - 1 while spanning a locally indistinguishable subspace whose complement yields distillable genuine entanglement.
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Design Principles for Enhanced Quantum Transport with Site-Dependent Noise
Site-dependent dephasing optimized per site boosts quantum transport efficiency in localized 1D lattices beyond uniform dephasing by increasing steady-state delocalization.
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Genuine and Non-Genuine Quantum Non-Markovianity: A Unified Information-Theoretic Review
A unified survey of state-distinguishability, CP-divisibility, and process-tensor approaches to genuine quantum non-Markovianity based on information backflow.