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An approach to constructing genuinely entangled subspaces of maximal dimension

Maciej Demianowicz, Remigiusz Augusiak

2020Quantum Information Processing14 citationsDOIOpen Access PDF

Abstract

Abstract Genuinely entangled subspaces (GESs) are the class of completely entangled subspaces that contain only genuinely multiparty entangled states. They constitute a particularly useful notion in the theory of entanglement but also have found an application, for instance, in quantum error correction and cryptography. In a recent study (Demianowicz and Augusiak in Phys Rev A 98:012313, 2018), we have shown how GESs can be efficiently constructed in any multiparty scenario from the so-called unextendible product bases. The provided subspaces, however, are not of maximal allowable dimensions, and our aim here is to put forward an approach to building such. The method is illustrated with few examples in small systems. Connections with other mathematical problems, such as spaces of matrices of equal rank and the numerical range, are discussed.

Topics & Concepts

Linear subspaceQuantum entanglementDimension (graph theory)Class (philosophy)Product (mathematics)Computer scienceRank (graph theory)Quantum computerQuantum nonlocalityRange (aeronautics)MathematicsDiscrete mathematicsQuantumPure mathematicsTheoretical computer scienceQuantum mechanicsCombinatoricsPhysicsGeometryArtificial intelligenceMaterials scienceComposite materialQuantum Information and CryptographyQuantum Computing Algorithms and ArchitectureQuantum Mechanics and Applications