Wenlan Chen scite author profile

The realization of an all-optical transistor, in which one "gate" photon controls a "source" light beam, is a long-standing goal in optics. By stopping a light pulse in an atomic ensemble contained inside an optical resonator, we realized a device in which one stored gate photon controls the resonator transmission of subsequently applied source photons. A weak gate pulse induces bimodal transmission distribution, corresponding to zero and one gate photons. One stored gate photon produces fivefold source attenuation and can be retrieved from the atomic ensemble after switching more than one source photon. Without retrieval, one stored gate photon can switch several hundred source photons. With improved storage and retrieval efficiency, our work may enable various new applications, including photonic quantum gates and deterministic multiphoton entanglement.

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Vacuum-Induced Transparency

Tanji-Suzuki

Chen

Landig

et al. 2011

Science

133

102

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Creation of a Bose-condensed gas of ⁸⁷ Rb by laser cooling

Urvoy

Vendeiro

et al. 2017

Science

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Protocols for attaining quantum degeneracy in atomic gases almost exclusively rely on evaporative cooling, a time-consuming final step associated with substantial atom loss. We demonstrate direct laser cooling of a gas of rubidium-87 (Rb) atoms to quantum degeneracy. The method is fast and induces little atom loss. The atoms are trapped in a two-dimensional optical lattice that enables cycles of compression to increase the density, followed by Raman sideband cooling to decrease the temperature. From a starting number of 2000 atoms, 1400 atoms reach quantum degeneracy in 300 milliseconds, as confirmed by a bimodal velocity distribution. The method should be broadly applicable to many bosonic and fermionic species and to systems where evaporative cooling is not possible.

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Entangled collective-spin states of atomic ensembles under nonuniform atom-light interaction

Chen

Vendeiro

et al. 2015

Phys. Rev. A

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We consider the optical generation and characterization of entanglement in atomic ensembles under nonuniform interaction between the ensemble and an optical mode. We show that for a wide range of parameters a system of nonuniformly coupled atomic spins can be described as an ensemble of uniformly coupled spins with a reduced effective atom-light coupling and a reduced effective atom number, with a reduction factor of order unity given by the ensemble-mode geometry. This description is valid even for complex entangled states with arbitrary phase-space distribution functions as long as the average total spin remains large, and the detection does not resolve single spins. Furthermore, we derive an analytic formula for determining the observable entanglement in the case, of relevance in practice, where the ensemble-mode coupling differs between state generation and measurement.

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Wenlan Chen

All-Optical Switch and Transistor Gated by One Stored Photon

Vacuum-Induced Transparency

Creation of a Bose-condensed gas of ⁸⁷ Rb by laser cooling

Entangled collective-spin states of atomic ensembles under nonuniform atom-light interaction

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Wenlan Chen

All-Optical Switch and Transistor Gated by One Stored Photon

Vacuum-Induced Transparency

Creation of a Bose-condensed gas of 87 Rb by laser cooling

Entangled collective-spin states of atomic ensembles under nonuniform atom-light interaction

Contact Info

Product

Resources

About

Creation of a Bose-condensed gas of ⁸⁷ Rb by laser cooling