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Solvable Criterion for the Contextuality of any Prepare-and-Measure Scenario

Victor Gitton, Mischa P. Woods

2022Quantum17 citationsDOIOpen Access PDF

Abstract

Starting from arbitrary sets of quantum states and measurements, referred to as the prepare-and-measure scenario, an operationally noncontextual ontological model of the quantum statistics associated with the prepare-and-measure scenario is constructed. The operationally noncontextual ontological model coincides with standard Spekkens noncontextual ontological models for tomographically complete scenarios, while covering the non-tomographically complete case with a new notion of a reduced space, which we motivate following the guiding principles of noncontextuality. A mathematical criterion, called <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML"><mml:mrow class="MJX-TeXAtom-ORD"><mml:mtext class="MJX-tex-mathit" mathvariant="italic">unit separability</mml:mtext></mml:mrow></mml:math>, is formulated as the relevant classicality criterion – the name is inspired by the usual notion of quantum state separability. Using this criterion, we derive a new upper bound on the cardinality of the ontic space. Then, we recast the unit separability criterion as a (possibly infinite) set of linear constraints, from which we obtain two separate hierarchies of algorithmic tests to witness the non-classicality or certify the classicality of a scenario. Finally, we reformulate our results in the framework of generalized probabilistic theories and discuss the implications for simplex-embeddability in such theories.

Topics & Concepts

Measure (data warehouse)MathematicsOnticSet (abstract data type)Space (punctuation)Probabilistic logicComputer scienceStatisticsData miningEpistemologyOperating systemProgramming languagePhilosophyQuantum Mechanics and ApplicationsQuantum Information and CryptographyPhilosophy and History of Science
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