Physics – Quantum Physics
Scientific paper
2003-05-27
Physics
Quantum Physics
Submitted to Nature, 3 March, 2003 (in press)
Scientific paper
10.1038/nature01714
Quantum information science attempts to exploit capabilities from the quantum realm to accomplish tasks that are otherwise impossible in the classical domain [1]. Although sufficient conditions have been formulated for the physical resources required to achieve quantum computation and communication [2], there is an evolving understanding of the power of quantum measurement combined with conditional evolution for accomplishing diverse tasks in quantum information science [3-5]. In this regard, a significant advance is the invention of a protocol by Duan, Lukin, Cirac, and Zoller (DLCZ) [6] for the realization of scalable long distance quantum communication and the distribution of entanglement over quantum networks. Here, we report the first enabling step in the realization of the protocol of DLCZ, namely the observation of quantum correlations for photon pairs generated in the collective emission from an atomic ensemble. The nonclassical character of the fields is evidenced by the violation of a Cauchy-Schwarz inequality for the two fields (1,2). As compared to prior investigations of nonclassical correlations for photon pairs produced in atomic cascades [7] and in parametric down conversion [8], our experiment is distinct in that the correlated (1,2) photons are separated by a programmable time interval delta t, with delta t ~ 400 nsec in our initial experiments.
Boca A.
Boozer A. D.
Bowen Warwick P.
Chou Chee W.
Duan Lu-Ming
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