Nina Stiesdal, Hannes Busche, Jan Kumlin, Kevin Kleinbeck, Hans Peter Büchler, Sebastian Hofferberth
Published 2020-05-11Version 1
We experimentally investigate the collective decay of a single Rydberg superatom, formed by an ensemble of thousands of individual atoms supporting only a single excitation due to the Rydberg blockade. Instead of observing a constant decay rate determined by the collective coupling strength to the driving field, we show that the enhanced emission of the single stored photon into the forward direction of the coupled optical mode depends on the dynamics of the superatom before the decay. We find that the observed decay rates are reproduced by an expanded model of the superatom which includes coherent coupling between the collective bright state and subradiant states.
Long-distance entanglement distribution using individual atoms in optical cavities
Observation of Antinormally Ordered Hanbury-Brown--Twiss Correlations
Entanglement of two individual atoms using the Rydberg blockade
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