Litcius/Paper detail

Narrow Optical Transitions in Erbium-Implanted Silicon Waveguides

Andreas Gritsch, Lorenz Weiss, Johannes Früh, Stephan Rinner, Andreas Reiserer

2022Physical Review X54 citationsDOIOpen Access PDF

Abstract

The realization of a scalable architecture for quantum information processing is a major challenge for quantum science. A promising approach is based on emitters in nanostructures that are coupled by light. Here, we show that erbium dopants can be reproducibly integrated at well-defined lattice sites by implantation into pure silicon. We thus achieve a narrow inhomogeneous broadening, less than 1 GHz, strong optical transitions, and an outstanding optical coherence even at temperatures of 8 K, with an upper bound to the homogeneous linewidth of around 10 kHz. Our study thus introduces a promising materials platform for the implementation of on-chip quantum memories, microwave-to-optical conversion, and distributed quantum information processing.

Topics & Concepts

Laser linewidthOptoelectronicsCoherence (philosophical gambling strategy)QuantumMaterials scienceQuantum informationMicrowaveSilicon photonicsSiliconQuantum technologyPhotonicsErbiumRealization (probability)PhysicsOpticsDopingOpen quantum systemQuantum mechanicsLaserMathematicsStatisticsPhotonic and Optical DevicesAdvanced Fiber Laser TechnologiesMechanical and Optical Resonators