Quantum Fusion of Independent Networks Based on Multi-user Entanglement Swapping

• URL: http://arxiv.org/abs/2312.03279v1
• Date: Wed, 6 Dec 2023 04:13:05 GMT
• Title: Quantum Fusion of Independent Networks Based on Multi-user Entanglement Swapping
• Authors: Yiwen Huang, Yilin Yang, Hao Li, Jing Qiu, Zhantong Qi, Jiayu Wang, Yuting Zhang, Yuanhua Li, Yuanlin Zheng, and Xianfeng Chen
• Abstract summary: We demonstrate the quantum fusion of two independent networks for the first time based on multiuser entanglement swapping. Our approach opens attractive opportunities for the establishment of quantum entanglement between remote nodes in different networks.
• Score: 10.329329036590705
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: With the advance development in quantum science, constructing a large-scale quantum network has become a hot area of future quantum information technology. Future quantum networks promise to enable many fantastic applications and will unlock fundamentally new technologies in information security and large-scale computation. The future quantum internet is required to connect quantum information processors to achieve unparalleled capabilities in secret communication and enable quantum communication between any two points on Earth. However, the existing quantum networks are basically constructed to realize the communication between the end users in their own networks. How to bridge different independent networks to form a fully-connected quantum internet becomes a pressing challenge for future networks. Here, we demonstrate the quantum fusion of two independent networks for the first time based on multiuser entanglement swapping, to merge two 10-user networks into a larger network with 18 users in quantum correlation layer. By performing the Bell state measurement between two nonneighboring nodes, the users from different networks can establish entanglement and ultimately every pair of the 18 users are able to communicate with each other using the swapped states. Our approach opens attractive opportunities for the establishment of quantum entanglement between remote nodes in different networks, which facilitates versatile quantum information interconnects and has great application in constructing large-scale intercity quantum communication networks.

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