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Almost Qudits in the Prepare-and-Measure Scenario

Jef Pauwels, Stefano Pironio, Erik Woodhead, Armin Tavakoli

2022Physical Review Letters18 citationsDOIOpen Access PDF

Abstract

Quantum communication is often investigated in scenarios where only the dimension of Hilbert space is known. However, assigning a precise dimension is often an approximation of what is actually a higher-dimensional process. Here, we introduce and investigate quantum information encoded in carriers that nearly, but not entirely, correspond to standard qudits. We demonstrate the relevance of this concept for semi-device-independent quantum information by showing how small higher-dimensional components can significantly compromise the conclusions of established protocols. Then we provide a general method, based on semidefinite relaxations, for bounding the set of almost qudit correlations, and apply it to remedy the demonstrated issues. This method also offers a novel systematic approach to the well-known task of device-independent tests of classical and quantum dimensions with unentangled devices. Finally, we also consider viewing almost qubit systems as a physical resource available to the experimenter and determine the optimal quantum protocol for the well-known random access code.

Topics & Concepts

Hilbert spaceComputer scienceDimension (graph theory)Bounding overwatchMeasure (data warehouse)QubitQuantumMutually unbiased basesSet (abstract data type)Protocol (science)Quantum informationRelevance (law)Task (project management)Theoretical computer scienceQuantum information scienceCode (set theory)MathematicsQuantum mechanicsQuantum entanglementPhysicsPure mathematicsArtificial intelligenceData miningManagementMedicineProgramming languagePolitical sciencePathologyAlternative medicineLawEconomicsQuantum Information and CryptographyQuantum Computing Algorithms and ArchitectureQuantum Mechanics and Applications
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