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Bound entangled singlet-like states for quantum metrology

Károly F. Pál, Géza Tóth, Erika Bene, Tamás Vértesi

2021Physical Review Research18 citationsDOIOpen Access PDF

Abstract

Bipartite entangled quantum states with a positive partial transpose (PPT), i.e., PPT entangled states, are usually considered very weakly entangled. Since no pure entanglement can be distilled from them, they are also called bound entangled. In this paper, we present two classes of (2d 2d)-dimensional PPT entangled states for any d 2 which outperform all separable states in metrology significantly. We present strong evidence that our states provide the maximal metrological gain achievable by PPT states for a given system size. When the dimension d goes to infinity, the metrological gain of these states becomes maximal and equals the metrological gain of a pair of maximally entangled qubits. Thus, we argue that our states could be called "PPT singlets.

Topics & Concepts

Quantum metrologyPhysicsMetrologyPeres–Horodecki criterionQuantum entanglementQuantum mechanicsDimension (graph theory)W stateSeparable stateQuantum stateState (computer science)Multipartite entanglementQuantum informationCluster stateQuantumBipartite graphQuantum teleportationCoincidence countingEntanglement witnessSpontaneous parametric down-conversionEntanglement distillationQuantum sensorLOCCQuantum discordMeasure (data warehouse)Quantum information scienceQuantum nonlocalityQuantum Information and CryptographyQuantum Computing Algorithms and ArchitectureQuantum Mechanics and Applications
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