Related papers: Robust and cost-effective quantum network using Kramers-Kronig receiver

Robust and cost-effective quantum network using Kramers-Kronig receiver

URL: http://arxiv.org/abs/2509.06711v1
Date: Mon, 08 Sep 2025 14:05:40 GMT
Title: Robust and cost-effective quantum network using Kramers-Kronig receiver
Authors: Xu Liu, Tao Wang, Junpeng Zhang, Yankai Xu, Yuehan Xu, Lang Li, Peng Huang, Guihua Zeng,
Abstract summary: We propose a robust and cost-effective quantum network using the Kramers-Kronig receiver.<n>We show that each user can achieve a secret key rate at 55 kbit/s within the access network range by using only one photodetector.
Score: 8.183345912771232
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: The quantum internet holds the potential to facilitate applications that are fundamentally inaccessible to the classical internet. Among its most prominent applications is quantum key distribution (QKD) networks, which connect two distant nodes to establish a secure key based on the principles of quantum mechanics. However, the subsequent extensive reliance on interferences in existing QKD protocols leads to the weak robustness of the system and the corresponding network. In this work, we propose a robust and cost-effective quantum network using the Kramers-Kronig receiver. We first propose a continuous-variable QKD protocol based on direct detection without interference, which achieves the recovery of quadrature components through the Kramers-Kronig relation. Subsequently, we have extended this protocol to continuous-variable quantum access networks, further highlighting the robustness and cost advantages of interference-free detection. The experimental results show that each user can achieve a secret key rate at 55 kbit/s within the access network range by using only one photodetector without interference structures. This scheme opens up new possibilities in establishing a robust and cost-effective quantum network, serving as a foundational element in the progress toward establishing a large-scale quantum internet.

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