Litcius/Paper detail

Mutually unbiased bases and symmetric informationally complete measurements in Bell experiments

Armin Tavakoli, Máté Farkas, Denis Rosset, Jean-Daniel Bancal, Jedrzej Kaniewski

2021Science Advances75 citationsDOIOpen Access PDF

Abstract

-dimensional MUBs and SICs, respectively, (ii) proving device-independent certification of natural operational notions of MUBs and SICs, and (iii) using MUBs and SICs to develop optimal-rate and nearly optimal-rate protocols for device-independent quantum key distribution and device-independent quantum random number generation, respectively. Moreover, we also present the first example of an extremal point of the quantum set of correlations that admits physically inequivalent quantum realizations. Our results elaborately demonstrate the foundational and practical relevance of the two most important discrete Hilbert space structures to the field of quantum nonlocality.

Topics & Concepts

Mutually unbiased basesHilbert spaceQuantum nonlocalityQuantumMathematicsSIC-POVMQuantum information scienceSet (abstract data type)Discrete mathematicsQuantum key distributionPoint (geometry)Pure mathematicsRelevance (law)Space (punctuation)Field (mathematics)Computer scienceLimit (mathematics)Quantum stateTheoretical physicsPOVMQuantum mechanicsQuantum informationCertificationQuantum information processingKey (lock)Natural numberQuantum systemPhysicsQuantum operationQuantum field theoryQuantum probabilityObservableCombinatoricsQuantum Mechanics and ApplicationsQuantum Information and CryptographyQuantum and Classical Electrodynamics