Purcell enhancement of single-photon emitters in silicon
Andreas Gritsch, Alexander Ulanowski, Andreas Reiserer
Abstract
Individual spins that are coupled to telecommunication photons offer unique promise for distributed quantum information processing once a coherent and efficient spin–photon interface can be fabricated at scale. We implement such an interface by integrating erbium dopants into a nanophotonic silicon resonator. We achieve spin-resolved excitation of individual emitters with <0.1GHz spectral diffusion linewidth. Upon resonant driving, we observe optical Rabi oscillations and single-photon emission with a 78-fold Purcell enhancement. Our results establish a promising platform for quantum networks.
Topics & Concepts
Laser linewidthPhotonSpinsPurcell effectNanophotonicsOptoelectronicsPhysicsSiliconResonatorPhotonicsSpin (aerodynamics)Materials scienceOpticsSpontaneous emissionCondensed matter physicsLaserThermodynamicsPhotonic and Optical DevicesMechanical and Optical ResonatorsNeural Networks and Reservoir Computing