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A covariant Stinespring theorem

Dominic Verdon

2022Journal of Mathematical Physics11 citationsDOIOpen Access PDF

Abstract

We prove a finite-dimensional covariant Stinespring theorem for compact quantum groups. Let G be a compact quantum group, and let T≔Rep(G) be the rigid C*-tensor category of finite-dimensional continuous unitary representations of G. Let Mod(T) be the rigid C*-2-category of cofinite semisimple finitely decomposable T-module categories. We show that finite-dimensional G-C*-algebras can be identified with equivalence classes of 1-morphisms out of the object T in Mod(T). For 1-morphisms X:T→M1, Y:T→M2, we show that covariant completely positive maps between the corresponding G-C*-algebras can be “dilated” to isometries τ: X → Y ⊗ E, where E:M2→M1 is some “environment” 1-morphism. Dilations are unique up to partial isometry on the environment; in particular, the dilation minimizing the quantum dimension of the environment is unique up to a unitary. When G is a compact group, this recovers previous covariant Stinespring-type theorems.

Topics & Concepts

Covariant transformationMathematicsMathematical physicsPure mathematicsAlgebra over a fieldPhysicsAdvanced Operator Algebra ResearchAdvanced Topics in AlgebraAlgebraic structures and combinatorial models
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