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Quantum optical circulator controlled by a single chirally coupled atom

We demonstrate a fiber-integrated quantum optical circulator that is operated by a single atom and that relies on the chiral interaction between emitters and transversally confined light. Like its counterparts in classical optics, our circulator exhibits an inherent asymmetry between light propagation in the forward and the backward direction. However, rather than a magnetic field or a temporal modulation, it is the internal quantum state of the atom that controls the operation direction of the circulator. This working principle is compatible with preparing the circulator in a coherent superposition of its operational states. Such a quantum circulator may thus become a key element for routing and processing quantum information in scalable integrated optical circuits. Moreover, it features a strongly nonlinear response at the single-photon level, thereby enabling, e.g., photon number-dependent routing and novel quantum simulation protocols.

preprint2016arXivOpen access
Michael ScheucherAdèle HilicoElisa WillJürgen VolzArno Rauschenbeutel
quant-ph
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Michael ScheucherAdèle HilicoElisa WillJürgen VolzArno Rauschenbeutel

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