The quantum violation of a noncontextuality inequality for intraparticle path-spin entanglement quantitatively matches the success probability enhancement in n-bit random access code protocols.
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Preparation contextuality is witnessed by the non-existence of any admissible global response matrix that extends local preparation data while satisfying structural and compatibility conditions that force a product form.
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Random Access Code protocols: Quantum advantage related to intraparticle entanglement-based contextuality
The quantum violation of a noncontextuality inequality for intraparticle path-spin entanglement quantitatively matches the success probability enhancement in n-bit random access code protocols.
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Sheaf-Theoretic Preparation Contextuality
Preparation contextuality is witnessed by the non-existence of any admissible global response matrix that extends local preparation data while satisfying structural and compatibility conditions that force a product form.