Quantum Random Access Codes Implementation for Resource Allocation and Coexistence with Classical Telecommunication
Abstract
In a world where Quantum Networks are rapidly becoming a reality, the development of the Quantum Internet is gaining increasing interest. Nevertheless, modern quantum networks are still in the early stages of development and have limited capacity to distribute resources among different users -- a constraint that needs to be taken into account. In this work we aim to investigate these constraints, using a novel setup for implementing Quantum Random Access Codes (QRACs), communication protocols known for their quantum advantage over their classical counterparts and semi-device-independent self-testing applications. Our QRAC states, made for the first time using weak coherent pulses instead of entangled single photons, allow us to experimentally test our encoding and decoding strategy from the resource allocation perspective. Moreover, by emulating a coexistent classical communication, we test the resilience of our implementation in presence of noise. The achieved results represent a significant milestone both for theoretical studies of quantum resource allocation and for the implementation of quantum infrastructures capable of coexisting with regular telecommunication networks.
Cite
@article{arxiv.2403.19000,
title = {Quantum Random Access Codes Implementation for Resource Allocation and Coexistence with Classical Telecommunication},
author = {Domenico Ribezzo and Roberto Salazar and Jakub Czartowski and Flora Segur and Gianmarco Lemmi and Antoine Petitjean and Noel Farrugia and André Xuereb and Davide Bacco and Alessandro Zavatta},
journal= {arXiv preprint arXiv:2403.19000},
year = {2024}
}