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On-chip scalable highly pure and indistinguishable single-photon sources in ordered arrays: Path to quantum optical circuits

Jiefei Zhang, Swarnabha Chattaraj, Qi Huang, Lucas Jordao, Siyuan Lu, A. Madhukar

2022Science Advances28 citationsDOIOpen Access PDF

Abstract

Realization of quantum optical circuits is at the heart of quantum photonic information processing. A long-standing obstacle, however, has been the absence of a suitable platform of single photon sources (SPSs). Such SPSs need to be in spatially ordered arrays and produce, on-demand, highly pure, and indistinguishable single photons with sufficiently uniform emission characteristics to enable controlled interference between photons from distinct sources underpinning functional quantum optical networks. We report on such a platform of SPSs based on a unique class of epitaxial quantum dots dubbed mesa-top single quantum dot. Under resonant excitation, the spatially ordered SPSs (without Purcell enhancement) show single photon purity of >99% [ g (2) (0) ~ 0.015], high two-photon Hong-Ou-Mandel interference visibilities of 0.82 ± 0.03 (at 11.5 kelvin, without cavity), and spectral nonuniformity of <3 nanometers, within established locally tunable technology. Our platform of SPSs paves the path to creating on-chip scalable quantum photonic networks for communication, computation, simulation, sensing and imaging.

Topics & Concepts

PhotonPhotonicsPhysicsOptoelectronicsQuantum dotQuantum networkQuantumInterference (communication)Quantum computerOptical pathRealization (probability)ScalabilitySingle-photon sourceQuantum information scienceElectronic circuitQuantum imagingOpticsComputer scienceTelecommunicationsQuantum mechanicsQuantum entanglementDatabaseMathematicsStatisticsChannel (broadcasting)Quantum Information and CryptographySemiconductor Quantum Structures and DevicesPhotonic and Optical Devices