Litcius/Paper detail

Single-mode fiber coupling with a M-SPGD algorithm for long-range quantum communications

Kui-Xing Yang, Maimaiti Abulizi, Yu-huai Li, Bo-Yang Zhang, Shuang-Lin Li, Wei-yue Liu, Juan Yin, Yuan Cao, Ji-gang Ren, Cheng-zhi Peng

2020Optics Express19 citationsDOIOpen Access PDF

Abstract

Satellite-based quantum communication is a promising approach for realizing global-scale quantum networks. For free-space quantum channel, single-mode fiber coupling is particularly important for improving the signal-to-noise ratio of daylight quantum key distribution (QKD) and compatibility with standard fiber-based QKD. However, achieving a highly efficient and stable single-mode coupling efficiency under strong atmospheric turbulence remains experimentally challenging. Here, we develop a single-mode receiver with an adaptive optics (AO) system based on a modal version of the stochastic parallel gradient descent (M-SPGD) algorithm and test its performance over an 8 km urban terrestrial free-space channel. Under strong atmospheric turbulence, the M-SPGD AO system obtains an improvement of about 3.7 dB in the single-mode fiber coupling efficiency and a significant suppression of fluctuation, which can find its applications in free-space long-range quantum communications.

Topics & Concepts

Quantum key distributionOpticsOptical fiberQuantumPhysicsQuantum information scienceCoupling (piping)Free-space optical communicationQuantum opticsComputer scienceOptical communicationQuantum channelModalAlgorithmQuantum efficiencyAdaptive opticsQuantum networkPhotodetectionElectronic engineeringAmplified spontaneous emissionQuantum algorithmOptoelectronicsMulti-mode optical fiberPhotonAtmospheric turbulenceCommunications systemTelecommunicationsFiber optic sensorSpontaneous emissionQuantum mechanicsOptical Wireless Communication TechnologiesAdvanced Photonic Communication SystemsOptical Network Technologies