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Literature DB >> 25494072

Quantum non-Gaussian Depth of Single-Photon States.

Ivo Straka¹, Ana Predojević², Tobias Huber², Lukáš Lachman¹, Lorenz Butschek², Martina Miková¹, Michal Mičuda¹, Glenn S Solomon³, Gregor Weihs², Miroslav Ježek¹, Radim Filip¹.

Abstract

We introduce and experimentally explore the concept of the non-Gaussian depth of single-photon states with a positive Wigner function. The depth measures the robustness of a single-photon state against optical losses. The directly witnessed quantum non-Gaussianity withstands significant attenuation, exhibiting a depth of 18 dB, while the nonclassicality remains unchanged. Quantum non-Gaussian depth is an experimentally approachable quantity that is much more robust than the negativity of the Wigner function. Furthermore, we use it to reveal significant differences between otherwise strongly nonclassical single-photon sources.

Year: 2014 PMID： 25494072 DOI： 10.1103/PhysRevLett.113.223603

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

5 in total

Quantum non-Gaussian Depth of Single-Photon States.

1. Revealing nonclassicality beyond Gaussian states via a single marginal distribution.

2. Estimating Non-Gaussianity of a Quantum State by Measuring Orthogonal Quadratures.

3. Nonclassical light from a large number of independent single-photon emitters.

4. Photon-phonon-photon transfer in optomechanics.

5. Taming numerical errors in simulations of continuous variable non-Gaussian state preparation.