Entangled states of local dimension d enable strictly higher probability of agreeing on a common frequency band than the optimal classical strategy for sufficiently large safe bands d and spectrum size n, with an explicit 5.4% asymptotic advantage for d=2 using one Bell pair.
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Arqon delivers reliable quantum network service via admission control and scheduling that satisfies defined reliability requirements for accepted demands in static topologies, with O(k^3) and O(N^3) complexity.
A framework with operational criteria and a trapped-atom hardware proposal for achieving statistically significant quantum advantage in latency-constrained nonlocal games.
citing papers explorer
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Quantum Advantage for Coordinated Frequency Selection Against Distributed Jammers
Entangled states of local dimension d enable strictly higher probability of agreeing on a common frequency band than the optimal classical strategy for sufficiently large safe bands d and spectrum size n, with an explicit 5.4% asymptotic advantage for d=2 using one Bell pair.
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Arqon: A suite of control applications enabling a reliable quantum network
Arqon delivers reliable quantum network service via admission control and scheduling that satisfies defined reliability requirements for accepted demands in static topologies, with O(k^3) and O(N^3) complexity.
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Operational criteria for quantum advantage in latency-constrained nonlocal games
A framework with operational criteria and a trapped-atom hardware proposal for achieving statistically significant quantum advantage in latency-constrained nonlocal games.