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Pearson correlation coefficient as a measure for certifying and quantifying high-dimensional entanglement

Chellasamy Jebarathinam, Dipankar Home, Urbasi Sinha

2020Physical review. A/Physical review, A30 citationsDOIOpen Access PDF

Abstract

A scheme for characterizing entanglement using the statistical measure of correlation given by the Pearson correlation coefficient (PCC) was recently suggested that has remained unexplored beyond the qubit case. Towards the application of this scheme for the high-dimensional states, a key step has been taken in a very recent work by experimentally determining PCC and analytically relating it to Negativity for quantifying entanglement of the empirically produced bipartite pure state of spatially correlated photonic qutrits. Motivated by this work, we present here a comprehensive study of the efficacy of such an entanglement characterizing scheme for a range of bipartite qutrit states by considering suitable combinations of PCCs based on a limited number of measurements. For this purpose, we investigate the issue of necessary and sufficient certification together with quantification of entanglement for the two-qutrit states comprising maximally entangled state mixed with white noise and colored noise in two different forms, respectively. Further, by considering these classes of states for $d=4$ and 5, extension of this PCC-based approach for higher dimensions ($d$) is discussed.

Topics & Concepts

Quantum entanglementQutritMeasure (data warehouse)Statistical physicsBipartite graphNoise (video)ConcurrenceCorrelationCorrelation coefficientWhite noiseMathematicsQubitQuantum mechanicsComputer sciencePhysicsStatisticsDiscrete mathematicsData miningArtificial intelligenceQuantumGraphImage (mathematics)GeometryQuantum Information and CryptographyQuantum Mechanics and ApplicationsQuantum Computing Algorithms and Architecture
Pearson correlation coefficient as a measure for certifying and quantifying high-dimensional entanglement | Litcius