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Requirements for a processing-node quantum repeater on a real-world fiber grid

Guus Avis, Francisco Ferreira da Silva, Tim Coopmans, Axel Dahlberg, Hana Jirovská, David Maier, Julian Rabbie, Ariana Torres‐Knoop, Stephanie Wehner

2023npj Quantum Information28 citationsDOIOpen Access PDF

Abstract

Abstract We numerically study the distribution of entanglement between the Dutch cities of Delft and Eindhoven realized with a processing-node quantum repeater and determine minimal hardware requirements for verifiable blind quantum computation using color centers and trapped ions. Our results are obtained considering restrictions imposed by a real-world fiber grid and using detailed hardware-specific models. By comparing our results to those we would obtain in idealized settings, we show that simplifications lead to a distorted picture of hardware demands, particularly on memory coherence and photon collection. We develop general machinery suitable for studying arbitrary processing-node repeater chains using NetSquid, a discrete-event simulator for quantum networks. This enables us to include time-dependent noise models and simulate repeater protocols with cut-offs, including the required classical control communication. We find minimal hardware requirements by solving an optimization problem using genetic algorithms on a high-performance-computing cluster. Our work provides guidance for further experimental progress, and showcases limitations of studying quantum-repeater requirements in idealized situations.

Topics & Concepts

Repeater (horology)Computer scienceQuantum computerNode (physics)Coherence (philosophical gambling strategy)QuantumQuantum entanglementComputer engineeringEncoding (memory)PhysicsQuantum mechanicsArtificial intelligenceQuantum Information and CryptographyQuantum Computing Algorithms and ArchitectureQuantum optics and atomic interactions
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