Abstract
Plasmonic nanostructures made of novel low-loss plasmonic materials are emerging as prime components for single-photon sources and nanoscale sensors with unique properties. Plasmon-enhanced single-photon emitters possess the advantages of GHz photon production rates, nanoscale footprint, room-temperature operation and strong tolerance to the cavity resonance frequency shifts. We present several realizations of quantum emitters coupled to plasmonic nanoantennas made of crystalline silver, using both random and deterministic assembly methods, focusing on single-photon production and the optical readout of single electronic spin states.
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