Dipolar exchange induced transparency with Rydberg atoms
نویسنده
چکیده
A three-level atomicmedium can bemade transparent to a resonant probe field in the presence of a strong control field acting on an adjacent atomic transition to a long-lived state, which can be represented by a highly excited Rydberg state. The long-range interactions between theRydberg state atoms then translate into strong, non-local, dispersive or absorptive interactions between the probe photons, which can be used to achieve deterministic quantum logic gates and single photon sources. Herewe show that long-range dipole–dipole exchange interactionwith one ormore spins—two-level systems represented by atoms in suitable Rydberg states—can play the role of control field for the optically densemediumof atoms. This induces transparency of themedium for a number of probe photons npnot exceeding the number of spins ns, while all the excess photons are resonantly absorbed upon propagation. In themost practical case of a single spin atomprepared in the Rydberg state, the medium is thus transparent only to a single input probe photon. For larger number of spins ns, all npns photon components of the probe fieldwould experience transparency butwith an npdependent group velocity.
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تاریخ انتشار 2017