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Frequency correlated photon generation at telecom band using silicon nitride ring cavities

Zhenghao Yin, Kenta Sugiura, Hideaki Takashima, Ryo Okamoto, Feng Qiu, Shiyoshi Yokoyama, Shigeki Takeuchi

2021Optics Express25 citationsDOIOpen Access PDF

Abstract

Frequency entangled photon sources are in high demand in a variety of optical quantum technologies, including quantum key distribution, cluster state quantum computation and quantum metrology. In the recent decade, chip-scale entangled photon sources have been developed using silicon platforms, offering robustness, large scalability and CMOS technology compatibility. Here, we report the generation of frequency correlated photon pairs using a 150-GHz silicon nitride ring cavity. First, the device is characterized for studying the phase matching condition during spontaneous four-wave mixing. Next, we evaluate the joint spectrum intensity of the generated photons and confirm the photon pair generation in a total of 42 correlated frequency mode pairs, corresponding to a bandwidth of 51.25 nm. Finally, the experimental results are analyzed and the joint spectral intensity is quantified in terms of the phase matching condition.

Topics & Concepts

PhotonPhysicsOptoelectronicsOpticsQuantum key distributionPhoton entanglementPhotonicsBandwidth (computing)Quantum opticsQuantum channelSilicon nitrideSpontaneous parametric down-conversionQuantum information scienceQuantumQuantum entanglementPhase matchingMaterials scienceQuantum networkQuantum computerQuantum sensorSiliconPhase (matter)Quantum dotPhotonic crystalSilicon photonicsSpontaneous emissionQuantum technologyCavity quantum electrodynamicsPhoton countingQuantum Information and CryptographyMechanical and Optical ResonatorsPhotonic and Optical Devices