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Paper detail

Coupling of individual quantum emitters to channel plasmons

Efficient light-matter interaction lies at the heart of many emerging technologies that seek on-chip integration of solid-state photonic systems. Plasmonic waveguides, which guide the radiation in the form of strongly confined surface plasmon-polariton modes, represent a promising solution to manipulate single photons in coplanar architectures with unprecedented small footprints. Here we demonstrate coupling of the emission from a single quantum emitter to the channel plasmon polaritons supported by a V-groove plasmonic waveguide. Extensive theoretical simulations enable us to determine the position and orientation of the quantum emitter for optimum coupling. Concomitantly with these predictions, we demonstrate experimentally that 42% of a single nitrogen vacancy centre emission efficiently couples into the supported modes of the V-groove. This work paves the way towards practical realization of efficient and long distance transfer of energy for integrated solid-state quantum systems.

preprint2015arXivOpen access
Esteban Bermúdez-UreñaCarlos Gonzalez-BallesteroMichael GeiselmannRenaud MartyIlya P. RadkoTobias HolmgaardYury AlaverdyanEsteban MorenoFrancisco J. García-VidalSergey I. BozhevolnyiRomain Quidant
physics.optics
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Esteban Bermúdez-UreñaCarlos Gonzalez-BallesteroMichael GeiselmannRenaud MartyIlya P. RadkoTobias HolmgaardYury AlaverdyanEsteban MorenoFrancisco J. García-VidalSergey I. BozhevolnyiRomain Quidant

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