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Infinite N phase transitions in continuum Wilson loop operators

High Energy Physics - Theory 2009-11-11 v2 High Energy Physics - Lattice High Energy Physics - Phenomenology

Abstract

We define smoothed Wilson loop operators on a four dimensional lattice and check numerically that they have a finite and nontrivial continuum limit. The continuum operators maintain their character as unitary matrices and undergo a phase transition at infinite N reflected by the eigenvalue distribution closing a gap in its spectrum when the defining smooth loop is dilated from a small size to a large one. If this large N phase transition belongs to a solvable universality class one might be able to calculate analytically the string tension in terms of the perturbative Lambda-parameter. This would be achieved by matching instanton results for small loops to the relevant large-N-universal function which, in turn, would be matched for large loops to an effective string theory. Similarities between our findings and known analytical results in two dimensional space-time indicate that the phase transitions we found only affect the eigenvalue distribution, but the traces of finite powers of the Wilson loop operators stay smooth under scaling.

Keywords

Cite

@article{arxiv.hep-th/0601210,
  title  = {Infinite N phase transitions in continuum Wilson loop operators},
  author = {R. Narayanan and H. Neuberger},
  journal= {arXiv preprint arXiv:hep-th/0601210},
  year   = {2009}
}

Comments

31 pages, 9 figures, typos and references corrected, minor clarifications added