Data di Pubblicazione:
2026
Citazione:
Quantum contextuality from measurement invasiveness / A. Navoni, M.G. Genoni, A. Smirne. - In: PHYSICAL REVIEW A. - ISSN 2469-9926. - 113:4(2026), pp. 042204.1-042204.11. [10.1103/hn92-4lcq]
Abstract:
Contextuality is a defining feature that separates the quantum from the classical descriptions of physical systems. Within the marginal-scenario framework, noncontextual models are characterized by the existence of a single joint probability distribution consistent with all measurable contexts, while contextual models violate this condition. Building on this approach, we introduce a general method to analyze contextuality in terms of stochastic linear maps that effectively model invasive measurements on an otherwise classical statistics. These maps transform probabilities within the noncontextuality polytope, which includes all classical probabilities, into probabilities that may lie outside the polytope, while preserving the compatibility structure of the scenario at hand. We derive general consistency conditions that such maps must satisfy to represent admissible invasive measurements, and we fully identify them for a paradigmatic example of contextuality for a single three-level quantum system. Furthermore, we introduce a quantifier of contextuality based on the minimal invasiveness required to reproduce a given probability distribution, which offers a distinct approach on how to evaluate the degree of contextuality in a general scenario.
Tipologia IRIS:
01 - Articolo su periodico
Elenco autori:
A. Navoni, M.G. Genoni, A. Smirne
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