Observation of Three-Body Correlations for Photons Coupled to a Rydberg Superatom

Nina Stiesdal, Jan Kumlin, Kevin Kleinbeck, Philipp Lunt, Christoph Braun, Asaf Paris-Mandoki, Christoph Tresp, Hans Peter Büchler, and Sebastian Hofferberth
Phys. Rev. Lett. 121, 103601 – Published 4 September 2018
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    Abstract

    We report on the experimental observation of nontrivial three-photon correlations imprinted onto initially uncorrelated photons through an interaction with a single Rydberg superatom. Exploiting the Rydberg blockade mechanism, we turn a cold atomic cloud into a single effective emitter with collectively enhanced coupling to a focused photonic mode which gives rise to clear signatures in the connected part of the three-body correlation function of the outgoing photons. We show that our results are in good agreement with a quantitative model for a single, strongly coupled Rydberg superatom. Furthermore, we present an idealized but exactly solvable model of a single two-level system coupled to a photonic mode, which allows for an interpretation of our experimental observations in terms of bound states and scattering states.

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    • Received 31 May 2018

    DOI:https://doi.org/10.1103/PhysRevLett.121.103601

    © 2018 American Physical Society

    Physics Subject Headings (PhySH)

    1. Research Areas
    Photon statisticsQuantum description of light-matter interactionQuantum opticsQuantum states of light
    Atomic, Molecular & Optical

    Authors & Affiliations

    Nina Stiesdal1, Jan Kumlin2, Kevin Kleinbeck2, Philipp Lunt1, Christoph Braun1, Asaf Paris-Mandoki1,3, Christoph Tresp1, Hans Peter Büchler2, and Sebastian Hofferberth1

    • 1Department of Physics, Chemistry and Pharmacy, Physics@SDU, University of Southern Denmark, 5320 Odense, Denmark
    • 2Institute for Theoretical Physics III and Center for Integrated Quantum Science and Technology, University of Stuttgart, 70550 Stuttgart, Germany
    • 3Instituto de Física, Universidad Nacional Autónoma de México, Mexico City, Mexico

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    Vol. 121, Iss. 10 — 7 September 2018

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