Litcius/Paper detail

On-Chip Hong–Ou–Mandel Interference from Separate Quantum Dot Emitters in an Integrated Circuit

Łukasz Dusanowski, Dominik Köck, Christian Schneider, Sven Höfling

2023ACS Photonics27 citationsDOI

Abstract

Scalable quantum photonic technologies require the low-loss integration of many identical single-photon sources with photonic circuitry on a chip. Relatively complex quantum photonic circuits have already been demonstrated; however, sources used so far relied on parametric down-conversion which has a probabilistic nature that intrinsically limits its efficiency and scalability. Quantum emitter-based single-photon sources are free of this limitation, but frequency matching of multiple emitters within a single circuit remains challenging. In this work, we demonstrate a key component in this regard in the form of a fully monolithic GaAs circuit combining two frequency-matched quantum dot single-photon sources interconnected with a low-loss on-chip beamsplitter connected via single-mode ridge waveguides. This device enabled us to perform a two-photon interference experiment on-chip with a visibility reaching 66%. Our device could be further scaled up, providing a clear path to increasing the complexity of quantum circuits toward fully scalable integrated quantum technologies.

Topics & Concepts

PhotonicsOptoelectronicsPhysicsPhotonic integrated circuitPhotonQuantum technologyQuantum dotQuantum sensorInterference (communication)Quantum computerQuantumComputer scienceQuantum networkOpticsTelecommunicationsQuantum mechanicsOpen quantum systemChannel (broadcasting)Photonic and Optical DevicesQuantum Information and CryptographySemiconductor Quantum Structures and Devices