Flow of quantum correlations from a two-qubit system to its environment

G. H. Aguilar; O. Jiménez Farías; A. Valdés-Hernández; P. H. Souto Ribeiro; L. Davidovich; S. P. Walborn

doi:10.1103/PhysRevA.89.022339

Flow of quantum correlations from a two-qubit system to its environment

G. H. Aguilar
, O. Jiménez Farías
, A. Valdés-Hernández
, P. H. Souto Ribeiro
, L. Davidovich
, S. P. Walborn

Research output: Indexed journal article › Article › peer-review

27 Citations (Scopus)

Abstract

The open-system dynamics of entanglement plays an important role in the assessment of the robustness of quantum information processes and also in the investigation of the classical limit of quantum mechanics. Here we show that, subjacent to this dynamics, there is a subtle flow of quantum correlations. We use a recently proposed optical setup, which allows joint tomography of system and environment, to show that the decay of an initial bipartite entangled state leads to the buildup of multipartite entanglement and quantum discord, the latter exhibiting a nonanalytic behavior that signals the emergence of maximal genuine quantum entanglement. The origin of this analyticity is shown to be distinct from similar behavior previously found in bipartite systems. Monogamy relations within the context of open-system dynamics explain this phenomenon.

Original language	English
Article number	022339
Journal	Physical Review A - Atomic, Molecular, and Optical Physics
Volume	89
Issue number	2
DOIs	https://doi.org/10.1103/PhysRevA.89.022339
Publication status	Published - 26 Feb 2014
Externally published	Yes

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10.1103/PhysRevA.89.022339

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abstract = "The open-system dynamics of entanglement plays an important role in the assessment of the robustness of quantum information processes and also in the investigation of the classical limit of quantum mechanics. Here we show that, subjacent to this dynamics, there is a subtle flow of quantum correlations. We use a recently proposed optical setup, which allows joint tomography of system and environment, to show that the decay of an initial bipartite entangled state leads to the buildup of multipartite entanglement and quantum discord, the latter exhibiting a nonanalytic behavior that signals the emergence of maximal genuine quantum entanglement. The origin of this analyticity is shown to be distinct from similar behavior previously found in bipartite systems. Monogamy relations within the context of open-system dynamics explain this phenomenon.",

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AU - Aguilar, G. H.

AU - Farías, O. Jiménez

AU - Valdés-Hernández, A.

AU - Souto Ribeiro, P. H.

AU - Davidovich, L.

AU - Walborn, S. P.

PY - 2014/2/26

Y1 - 2014/2/26

N2 - The open-system dynamics of entanglement plays an important role in the assessment of the robustness of quantum information processes and also in the investigation of the classical limit of quantum mechanics. Here we show that, subjacent to this dynamics, there is a subtle flow of quantum correlations. We use a recently proposed optical setup, which allows joint tomography of system and environment, to show that the decay of an initial bipartite entangled state leads to the buildup of multipartite entanglement and quantum discord, the latter exhibiting a nonanalytic behavior that signals the emergence of maximal genuine quantum entanglement. The origin of this analyticity is shown to be distinct from similar behavior previously found in bipartite systems. Monogamy relations within the context of open-system dynamics explain this phenomenon.

AB - The open-system dynamics of entanglement plays an important role in the assessment of the robustness of quantum information processes and also in the investigation of the classical limit of quantum mechanics. Here we show that, subjacent to this dynamics, there is a subtle flow of quantum correlations. We use a recently proposed optical setup, which allows joint tomography of system and environment, to show that the decay of an initial bipartite entangled state leads to the buildup of multipartite entanglement and quantum discord, the latter exhibiting a nonanalytic behavior that signals the emergence of maximal genuine quantum entanglement. The origin of this analyticity is shown to be distinct from similar behavior previously found in bipartite systems. Monogamy relations within the context of open-system dynamics explain this phenomenon.

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Flow of quantum correlations from a two-qubit system to its environment

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