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Quantum vs Noncontextual Semi-Device-Independent Randomness Certification

Carles Roch i Carceller, Kieran Flatt, Hanwool Lee, Joonwoo Bae, Jonatan Bohr Brask

2022Technical University of Denmark, DTU Orbit (Technical University of Denmark, DTU)39 citationsOpen Access PDF

Abstract

We compare the power of quantum and classical physics in terms of randomness certification from devices which are only partially characterized. We study randomness certification based on state discrimination and take noncontextuality as the notion of classicality. A contextual advantage was recently shown to exist for state discrimination. Here, we develop quantum and noncontextual semi-device independent protocols for random-number generation based on maximum-confidence discrimination, which generalizes unambiguous and minimum-error state discrimination. We show that, for quantum eavesdroppers, quantum devices can certify more randomness than noncontextual ones whenever none of the input states are unambiguously identified. That is, a quantum-over-classical advantage exists.

Topics & Concepts

RandomnessCertificationQuantumState (computer science)Computer scienceRandomness testsQuantum statePhysicsStatistical physicsQuantum mechanicsMathematicsStatisticsAlgorithmPolitical scienceLawQuantum Mechanics and ApplicationsQuantum Information and CryptographyQuantum Computing Algorithms and Architecture
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