Localizing gauge theories from noncommutative geometry
Abstract
We recall the emergence of a generalized gauge theory from a noncommutative Riemannian spin manifold, viz. a real spectral triple . This includes a gauge group determined by the unitaries in the -algebra and gauge fields arising from a so-called perturbation semigroup which is associated to . Our main new result is the interpretation of this generalized gauge theory in terms of an upper semi-continuous -bundle on a (Hausdorff) base space . The gauge group acts by vertical automorphisms on this -bundle and can (under some mild conditions) be identified with the space of continuous sections of a group bundle on . This then allows for a geometrical description of the group of inner automorphisms of . We exemplify our construction by Yang-Mills theory and toric noncommutative manifolds and show that they actually give rise to continuous -bundles. Moreover, in these examples the corresponding inner automorphism groups can be realized as spaces of sections of group bundles that we explicitly determine.
Cite
@article{arxiv.1411.6482,
title = {Localizing gauge theories from noncommutative geometry},
author = {Walter D. van Suijlekom},
journal= {arXiv preprint arXiv:1411.6482},
year = {2014}
}