Quantifying the non-Gaussianity of the state of spatially correlated down-converted photons

The state of spatially correlated down-converted photons is usually treated as a two-mode Gaussian entangled state. While intuitively this seems to be reasonable, it is known that new structures in the spatial distributions of these photons can be observed when the phase-matching conditions are prop...

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Veröffentlicht in:	Optics express 2012-02, Vol.20 (4), p.3753-3772
Hauptverfasser:	Gómez, E S, Nogueira, W A T, Monken, C H, Lima, G
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Sprache:	eng
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creator	Gómez, E S Nogueira, W A T Monken, C H Lima, G
description	The state of spatially correlated down-converted photons is usually treated as a two-mode Gaussian entangled state. While intuitively this seems to be reasonable, it is known that new structures in the spatial distributions of these photons can be observed when the phase-matching conditions are properly taken into account. Here, we study how the variances of the near- and far-field conditional probabilities are affected by the phase-matching functions, and we analyze the role of the EPR-criterion regarding the non-Gaussianity and entanglement detection of the spatial two-photon state of spontaneous parametric down-conversion (SPDC). Then we introduce a statistical measure, based on the negentropy of the joint distributions at the near- and far-field planes, which allows for the quantification of the non-Gaussianity of this state. This measure of non-Gaussianity requires only the measurement of the diagonal covariance sub-matrices, and will be relevant for new applications of the spatial correlation of SPDC in CV quantum information processing.
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title	Quantifying the non-Gaussianity of the state of spatially correlated down-converted photons
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