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Chromatic Quantum Contextuality
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Chromatic quantum contextuality is a criterion of quantum nonclassicality based on (hyper)graph coloring constraints. If a quantum hypergraph requires more colors than the number of outcomes per maximal observable (context), it lacks a classical realization with n-uniform outcomes per context. Consequently, it cannot represent a “completable” noncontextual set of coexisting n-ary outcomes per maximal observable. This result serves as a chromatic analogue of the Kochen-Specker theorem. We present an explicit example of a four-colorable quantum logic in dimension three. Furthermore, chromatic contextuality suggests a novel restriction on classical truth values, thereby excluding two-valued measures that cannot be extended to n-ary colorings. Using this framework, we establish new bounds for the house, pentagon, and pentagram hypergraphs, refining previous constraints.
Title: Chromatic Quantum Contextuality
Description:
Chromatic quantum contextuality is a criterion of quantum nonclassicality based on (hyper)graph coloring constraints.
If a quantum hypergraph requires more colors than the number of outcomes per maximal observable (context), it lacks a classical realization with n-uniform outcomes per context.
Consequently, it cannot represent a “completable” noncontextual set of coexisting n-ary outcomes per maximal observable.
This result serves as a chromatic analogue of the Kochen-Specker theorem.
We present an explicit example of a four-colorable quantum logic in dimension three.
Furthermore, chromatic contextuality suggests a novel restriction on classical truth values, thereby excluding two-valued measures that cannot be extended to n-ary colorings.
Using this framework, we establish new bounds for the house, pentagon, and pentagram hypergraphs, refining previous constraints.
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