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The Quantum Monad on Relational Structures

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arxiv 1705.07310 v1 pith:4LS75J4F submitted 2017-05-20 cs.LO quant-ph

The Quantum Monad on Relational Structures

classification cs.LO quant-ph
keywords quantumrelationalstructuresadvantagecentralconstraintcontextualityexhibit
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Homomorphisms between relational structures play a central role in finite model theory, constraint satisfaction and database theory. A central theme in quantum computation is to show how quantum resources can be used to gain advantage in information processing tasks. In particular, non-local games have been used to exhibit quantum advantage in boolean constraint satisfaction, and to obtain quantum versions of graph invariants such as the chromatic number. We show how quantum strategies for homomorphism games between relational structures can be viewed as Kleisli morphisms for a quantum monad on the (classical) category of relational structures and homomorphisms. We show a general connection between these notions and state-independent quantum realizations of strong contextuality in the Abramsky-Brandenburger formulation of contextuality. We use these results to exhibit a wide range of examples of contextuality-powered quantum advantage, and to unify several apparently diverse strands of previous work.

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    Introduces the quantum instrument monad I_A as a strong monad for quantum effects, with finitary and measure-theoretic constructions based on a new integral notion.