Experimental verification of quantum discord in continuous-variable states

S. Hosseini; S. Rahimi-Keshari; J. Y. Haw; S. M. Assad; H. M. Chrzanowski; J. Janousek; T. Symul; T. C. Ralph; P. K. Lam

doi:10.1088/0953-4075/47/2/025503

Experimental verification of quantum discord in continuous-variable states

S. Hosseini^*, S. Rahimi-Keshari, J. Y. Haw, S. M. Assad, H. M. Chrzanowski, J. Janousek, T. Symul, T. C. Ralph, P. K. Lam

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

12 Citations (Scopus)

Abstract

We introduce a simple and efficient technique to verify quantum discord in unknown Gaussian states and a certain class of non-Gaussian states. We show that any separation in the peaks of the marginal distributions of one subsystem conditioned on two different outcomes of homodyne measurements performed on the other subsystem indicates correlation between the corresponding quadratures, and hence nonzero discord. We also apply this method to non-Gaussian states that are prepared by overlapping a statistical mixture of coherent and vacuum states on a beam splitter. We experimentally demonstrate this technique by verifying nonzero quantum discord in a bipartite Gaussian and certain non-Gaussian states.

Original language	English
Article number	025503
Journal	Journal of Physics B: Atomic, Molecular and Optical Physics
Volume	47
Issue number	2
DOIs	https://doi.org/10.1088/0953-4075/47/2/025503
Publication status	Published - 28 Jan 2014

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title = "Experimental verification of quantum discord in continuous-variable states",

abstract = "We introduce a simple and efficient technique to verify quantum discord in unknown Gaussian states and a certain class of non-Gaussian states. We show that any separation in the peaks of the marginal distributions of one subsystem conditioned on two different outcomes of homodyne measurements performed on the other subsystem indicates correlation between the corresponding quadratures, and hence nonzero discord. We also apply this method to non-Gaussian states that are prepared by overlapping a statistical mixture of coherent and vacuum states on a beam splitter. We experimentally demonstrate this technique by verifying nonzero quantum discord in a bipartite Gaussian and certain non-Gaussian states.",

keywords = "Gaussian states, continuous variable quantum optics, quantum discord",

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T1 - Experimental verification of quantum discord in continuous-variable states

AU - Hosseini, S.

AU - Rahimi-Keshari, S.

AU - Haw, J. Y.

AU - Assad, S. M.

AU - Chrzanowski, H. M.

AU - Janousek, J.

AU - Symul, T.

AU - Ralph, T. C.

AU - Lam, P. K.

PY - 2014/1/28

Y1 - 2014/1/28

N2 - We introduce a simple and efficient technique to verify quantum discord in unknown Gaussian states and a certain class of non-Gaussian states. We show that any separation in the peaks of the marginal distributions of one subsystem conditioned on two different outcomes of homodyne measurements performed on the other subsystem indicates correlation between the corresponding quadratures, and hence nonzero discord. We also apply this method to non-Gaussian states that are prepared by overlapping a statistical mixture of coherent and vacuum states on a beam splitter. We experimentally demonstrate this technique by verifying nonzero quantum discord in a bipartite Gaussian and certain non-Gaussian states.

AB - We introduce a simple and efficient technique to verify quantum discord in unknown Gaussian states and a certain class of non-Gaussian states. We show that any separation in the peaks of the marginal distributions of one subsystem conditioned on two different outcomes of homodyne measurements performed on the other subsystem indicates correlation between the corresponding quadratures, and hence nonzero discord. We also apply this method to non-Gaussian states that are prepared by overlapping a statistical mixture of coherent and vacuum states on a beam splitter. We experimentally demonstrate this technique by verifying nonzero quantum discord in a bipartite Gaussian and certain non-Gaussian states.

KW - Gaussian states

KW - continuous variable quantum optics

KW - quantum discord

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DO - 10.1088/0953-4075/47/2/025503

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VL - 47

JO - Journal of Physics B: Atomic, Molecular and Optical Physics

JF - Journal of Physics B: Atomic, Molecular and Optical Physics

IS - 2

M1 - 025503

ER -

Experimental verification of quantum discord in continuous-variable states

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