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Polarization-insensitive interferometer based on a hybrid integrated planar light-wave circuit

Guo-Wei Zhang, Yuyang Ding, Wei Chen, Fang‐Xiang Wang, Peng Ye, Guan-Zhong Huang, Shuang Wang, Zhen‐Qiang Yin, Junming An, Guang‐Can Guo, Zheng‐Fu Han

2021Photonics Research27 citationsDOI

Abstract

Interferometers are essential elements in classical and quantum optical systems. The strictly required stability when extracting the phase of photons is vulnerable to polarization variation and phase shift induced by environment disturbance. Here, we implement polarization-insensitive interferometers by combining silica planar light-wave circuit chips and Faraday rotator mirrors. Two asymmetric interferometers with temperature controllers are connected in series to evaluate the single-photon interference. Average interference visibility over 12 h is above 99%, and the variations are less than 0.5%, even with active random polarization disturbance. The experiment results verify that the hybrid chip is available for high-demand applications like quantum key distribution and entanglement measurement.

Topics & Concepts

Astronomical interferometerInterferometryQuantum key distributionOpticsPolarization (electrochemistry)PhysicsPhotonPlanarQuantum opticsInterference (communication)Photon polarizationQuantum channelOptoelectronicsQuantum entanglementQuantumComputer scienceTelecommunicationsQuantum mechanicsPhysical chemistryComputer graphics (images)ChemistryChannel (broadcasting)Quantum Information and CryptographyPhotonic and Optical DevicesNeural Networks and Reservoir Computing