Empirical State Determination of Entangled Two-Level Systems and its Relation to Information Theory

Details Empirical State Determination of Entangled Two-Level Systems and its Relation to Information Theory Empirical State Determination of Entangled Two-Level Systems and its Relation to Information Theory

1999-06-03

arxiv.org/abs/quant-ph/9906013v1

Found.Phys. 29 (1999) 1963-1975

Physics

Quantum Physics

Scientific paper

Theoretical methods for empirical state determination of entangled two-level systems are analyzed in relation to information theory. We show that hidden variable theories would lead to a Shannon index of correlation between the entangled subsystems which is larger that that predicted by quantum mechanics. Canonical representations which have maximal correlations are treated by the use of Schmidt decomposition of the entangled states, including especially the Bohm singlet state and the GHZ entangled states. We show that quantum mechanics does not violate locality, but does violate realism.

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