Silicon photonics-integrated time-domain balanced homodyne detector in continuous-variable quantum key distribution
Silicon photonics-integrated time-domain balanced homodyne detector in continuous-variable quantum key distribution
We designed and experimentally demonstrated a silicon photonics-integrated time-domain balanced homodyne detector (TBHD), whose optical part has dimensions of 1.5 mm * 0.4 mm. To automatically and accurately balance the detector, new variable optical attenuators were used, and a common mode rejection ratio of 86.9 dB could be achieved. In the quantum tomography experiment, the density matrix and Wigner function of a coherent state were reconstructed with 99.97 % fidelity. The feasibility of this TBHD in a continuous-variable quantum key distribution (CVQKD) system was also demonstrated. This facilitates the integration of the optical circuits of the CVQKD system based on the GG02 protocol on the silicon photonics chip using TBHD.
Jun Zou、Xin Hua、Xiao Hu、Shengxiang Zhang、Yanxiang Jia、Yu Zhang、Xi Xiao、Xubo Guo、Shaohua Yu、Yongmin Li、Xuyang Wang
光电子技术半导体技术微电子学、集成电路
Jun Zou,Xin Hua,Xiao Hu,Shengxiang Zhang,Yanxiang Jia,Yu Zhang,Xi Xiao,Xubo Guo,Shaohua Yu,Yongmin Li,Xuyang Wang.Silicon photonics-integrated time-domain balanced homodyne detector in continuous-variable quantum key distribution[EB/OL].(2023-05-05)[2025-07-16].https://arxiv.org/abs/2305.03419.点此复制
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