Open-quantum-systems approach to complementarity in neutral-kaon interferometry.
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2016
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In bipartite quantum systems, entanglement correlations between the parties exerts direct influence in the
phenomenon of wave-particle duality. This effect has been quantitatively analyzed in the context of two qubits by
Jakob and Bergou [Opt. Commun. 283, 827 (2010)]. Employing a description of the K-meson propagation in free
space where its weak decay states are included as a second party, we study here this effect in the kaon-antikaon
oscillations. We show that a new quantitative “triality” relation holds, similar to the one considered by Jakob
and Bergou. In our case, it relates the distinguishability between the decay-product states corresponding to
the distinct kaon propagation modes KS , KL, the amount of wave-like path interference between these states,
and the amount of entanglement given by the reduced von Neumann entropy. The inequality can account for
the complementarity between strangeness oscillations and lifetime information previously considered in the
literature, therefore allowing one to see how it is affected by entanglement correlations. As we will discuss, it
allows one to visualize clearly through the K0-K 0 oscillations the fundamental role of entanglement in quantum
complementarity.
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SOUZA, G. H. C. de et al. Open-quantum-systems approach to complementarity in neutral-kaon interferometry. Physical Review A, v. 94, p. 1-5, 2016. Disponível em: <https://journals.aps.org/pra/abstract/10.1103/PhysRevA.94.062108>. Acesso em: 16 jan. 2018.