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Lattice gauge fields and noncommutative geometry |
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| Authors: | AP Balachandran G Bimonte G Landi F Lizzi P Teotonio-Sobrinho |
| Institution: | a The E. Schrödinger International Institute for Mathematical Physics, Pasteurgasse 6/7, A-1090, Wien, Austria b Department of Physics, Syracuse University, Syracuse, NY 13244-1130, USA c Departamento de Fisica Teorica, Facultad de Ciencias, Universitad de Zaragoza, 50009, Zaragoza, Spain d Dipartimento di Scienze Matematiche, Università di Trieste, P.le Europa 1, I-34127, Trieste, Italy e INFN, Sezione di Napoli, Napoli, Italy f Dipartimento di Scienze Fisiche, Università di Napoli, Mostra d'Oltremare, Pad. 19, I-80125, Napoli, Italy g Department of Physics, University of Illinois at Chicago, Chicago, IL 60607-7059, USA |
| Abstract: | Conventional approaches to lattice gauge theories do not properly consider the topology of spacetime or of its fields. In this paper, we develop a formulation which tries to remedy this defect. It starts from a cubical decomposition of the supporting manifold (compactified space-time or spatial slice) interpreting it as a finite topological approximation in the sense of Sorkin. This finite space is entirely described by the algebra of cochains with the cup product. The methods of Connes and Lott are then used to develop gauge theories on this algebra and to derive Wilson's actions for the gauge and Dirac fields therefrom which can now be given geometrical meaning. We also describe very natural candidates for the QCD θ-term and Chern-Simons action suggested by this algebraic formulation. Some of these formulations are simpler than currently available alternatives. The paper treats both the functional integral and Hamiltonian approaches. |
| Keywords: | Lattice gauge theory Geometry and topology of complexes Noncommutative geometry Topological actions Chern-Simons terms |
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