2013
DOI: 10.1103/physrevlett.110.103001
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Storage and Control of Optical Photons Using Rydberg Polaritons

Abstract: We use a microwave field to control the quantum state of optical photons stored in a cold atomic cloud. The photons are stored in highly excited collective states (Rydberg polaritons) enabling both fast qubit rotations and control of photon-photon interactions. Through the collective read-out of these pseudospin rotations it is shown that the microwave field modifies the long-range interactions between polaritons. This technique provides a powerful interface between the microwave and optical domains, with appl… Show more

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Cited by 281 publications
(328 citation statements)
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“…As shown by Peyronel and co-workers 67 , such a medium converts incident coherent states of light, consisting of a Poisson distribution in photon number, into outgoing single-photon pulses by absorptive filtering of photon-number states. Related techniques allow the implementation of a deterministic singlephoton source 68 , the switching of light with light 69 , atom-photon entanglement 70 and the control of light using Rydberg polaritons 71 .…”
Section: Quantum Nonlinear Optics Through Atom-atom Interactionsmentioning
confidence: 99%
“…As shown by Peyronel and co-workers 67 , such a medium converts incident coherent states of light, consisting of a Poisson distribution in photon number, into outgoing single-photon pulses by absorptive filtering of photon-number states. Related techniques allow the implementation of a deterministic singlephoton source 68 , the switching of light with light 69 , atom-photon entanglement 70 and the control of light using Rydberg polaritons 71 .…”
Section: Quantum Nonlinear Optics Through Atom-atom Interactionsmentioning
confidence: 99%
“…Our approach is to couple a light field propagating in a dispersive medium to highly excited atomic states with strong mutual interactions (Rydberg states) 13,14 . Similar to previous studies of quantum nonlinearities via Rydberg states that were based on dissipation [15][16][17][18][19] rather than dispersion 20 , we make use of electromagnetically induced transparency (EIT) to slow down the propagation of light 21 in a cold atomic gas. By operating in a dispersive regime away from the intermediate atomic resonance (Fig.…”
mentioning
confidence: 99%
“…using Rydberg atomic states [1], and more generally for applications in quantum information [2,3]. Recent proof-of-principle experiments along this line have been performed using samples containing ∼ 100 laser-cooled atoms held in a microscopic dipole trap [4] or in one-dimensional optical lattices [5]. As another example, a quasi-deterministic single-atom source has been recently demonstrated using light-assisted collisions in a small cold atomic ensemble [6].…”
Section: Introductionmentioning
confidence: 99%