Nonassociative geometry in quasi-Hopf representation categories II: connections and curvature

Nonassociative geometry in quasi-Hopf representation categories II: connections and curvature

We continue our systematic development of noncommutative and nonassociative differential geometry internal to the representation category of a quasitriangular quasi-Hopf algebra. We describe derivations, differential operators, differential calculi and connections using universal categorical constru...

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Bibliographic Details
Main Authors: Barnes, Gwendolyn E., Schenkel, Alexander, Szabo, Richard J.
Format: Article
Published: Elsevier 2016
Subjects:
Noncommutative/nonassociative differential geometry; Quasi-Hopf algebras; Braided monoidal categories; Internal homomorphisms; Cochain twist quantization
Online Access:https://eprints.nottingham.ac.uk/41003/
Description
Summary:We continue our systematic development of noncommutative and nonassociative differential geometry internal to the representation category of a quasitriangular quasi-Hopf algebra. We describe derivations, differential operators, differential calculi and connections using universal categorical constructions to capture algebraic properties such as Leibniz rules. Our main result is the construction of morphisms which provide prescriptions for lifting connections to tensor products and to internal homomorphisms. We describe the curvatures of connections within our formalism, and also the formulation of Einstein-Cartan geometry as a putative framework for a nonassociative theory of gravity.

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