English

Spin Foams and Noncommutative Geometry

Mathematical Physics 2014-11-21 v1 General Relativity and Quantum Cosmology math.MP

Abstract

We extend the formalism of embedded spin networks and spin foams to include topological data that encode the underlying three-manifold or four-manifold as a branched cover. These data are expressed as monodromies, in a way similar to the encoding of the gravitational field via holonomies. We then describe convolution algebras of spin networks and spin foams, based on the different ways in which the same topology can be realized as a branched covering via covering moves, and on possible composition operations on spin foams. We illustrate the case of the groupoid algebra of the equivalence relation determined by covering moves and a 2-semigroupoid algebra arising from a 2-category of spin foams with composition operations corresponding to a fibered product of the branched coverings and the gluing of cobordisms. The spin foam amplitudes then give rise to dynamical flows on these algebras, and the existence of low temperature equilibrium states of Gibbs form is related to questions on the existence of topological invariants of embedded graphs and embedded two-complexes with given properties. We end by sketching a possible approach to combining the spin network and spin foam formalism with matter within the framework of spectral triples in noncommutative geometry.

Keywords

Cite

@article{arxiv.1005.1057,
  title  = {Spin Foams and Noncommutative Geometry},
  author = {Domenic Denicola and Matilde Marcolli and Ahmad Zainy al-Yasry},
  journal= {arXiv preprint arXiv:1005.1057},
  year   = {2014}
}

Comments

48 pages LaTeX, 30 PDF figures

R2 v1 2026-06-21T15:19:33.629Z