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Characterizing quantum states via sector lengths

N Wyderka, O Gühne

2020Journal of Physics A Mathematical and Theoretical23 citationsDOIOpen Access PDF

Abstract

Abstract Correlations in multiparticle systems are constrained by restrictions from quantum mechanics. A prominent example for these restrictions are monogamy relations, limiting the amount of entanglement between pairs of particles in a three-particle system. A powerful tool to study correlation constraints is the notion of sector lengths. These quantify, for different k , the amount of k -partite correlations in a quantum state in a basis-independent manner. We derive tight bounds on the sector lengths in multi-qubit states and highlight applications of these bounds to entanglement detection, monogamy relations and the n -representability problem. For the case of two- and three qubits we characterize the possible sector lengths completely and prove a symmetrized version of strong subadditivity for the linear entropy.

Topics & Concepts

Quantum entanglementSubadditivityLimitingState (computer science)QuantumQubitQuantum stateQuantum mechanicsStatistical physicsQuantum discordPhysicsMathematicsQuantum correlationW stateMultipartite entanglementUpper and lower boundsQuantum systemQuantum informationMeasure (data warehouse)Quantum computerTheoretical physicsQuantum channelSquashed entanglementQuantum Information and CryptographyQuantum Computing Algorithms and ArchitectureQuantum Mechanics and Applications
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