Engineering and Technologynpj Quantum Information

Designing quantum networks using preexisting infrastructure

J. Rabbie, K. Chakraborty, et al.

This groundbreaking research by Julian Rabbie, Kaushik Chakraborty, Guus Avis, and Stephanie Wehner presents an innovative integer linear programming method for quantum network deployment. It promises to reduce the number of required quantum repeaters, all while ensuring robust entanglement-generation rates and fidelity over existing fiber infrastructures. Discover how this method exhibits impressive performance across networks of up to 100 nodes, utilizing both random and real-world fiber topologies in the Netherlands!... show more

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Abstract

We consider the problem of deploying a quantum network on an existing fiber infrastructure, where quantum repeaters and end nodes can only be housed at specific locations. We propose a method based on integer linear programming (ILP) to place the minimal number of repeaters on such an existing network topology, such that requirements on end-to-end entanglement-generation rate and fidelity between any pair of end-nodes are satisfied. While ILPs are generally difficult to solve, we show that our method performs well in practice for networks of up to 100 nodes. We illustrate the behavior of our method both on randomly-generated network topologies, as well as on a real-world fiber topology deployed in the Netherlands.

Publisher

npj Quantum Information

Published On

Jan 20, 2022

Authors

Julian Rabbie, Kaushik Chakraborty, Guus Avis, Stephanie Wehner

DOI

https://doi.org/10.1038/s41534-021-00501-3

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