arXiv:hep-th/9511018 Abstract

arXiv:hep-th/9511018Abstract References Reviews Resources

Physical phase space of lattice Yang-Mills theory and the moduli space of flat connections on a Riemann surface

Published 1995-11-03Version 1

It is shown that the physical phase space of $\g$-deformed Hamiltonian lattice Yang-Mills theory, which was recently proposed in refs.[1,2], coincides as a Poisson manifold with the moduli space of flat connections on a Riemann surface with $(L-V+1)$ handles and therefore with the physical phase space of the corresponding $(2+1)$-dimensional Chern-Simons model, where $L$ and $V$ are correspondingly a total number of links and vertices of the lattice. The deformation parameter $\g$ is identified with $\frac {2\pi}{k}$ and $k$ is an integer entering the Chern-Simons action.

Comments: 12 pages, latex, no figures

Journal: Theor.Math.Phys.113:1289-1298,1997; Teor.Mat.Fiz.113:100-111,1997

DOI: 10.1007/BF02634016

Categories: hep-th

Keywords: physical phase space, moduli space, flat connections, riemann surface, deformed hamiltonian lattice yang-mills theory

Tags: journal article

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