English

Nodes as Composite Operators in Matrix Models

High Energy Physics - Theory 2010-04-06 v2

Abstract

Riemann surfaces with nodes can be described by introducing simple composite operators in matrix models. In the case of the Kontsevich model, it is sufficient to add the quadratic, but ``non-propagating'', term (tr[X])^2 to the Lagrangian. The corresponding Jenkins-Strebel differentials have pairwise identified simple poles. The result is in agreement with a conjecture formulated by Kontsevich and recently investigated by Arbarello and Cornalba that the set Mm,s{\cal M}_{m*,s} of ribbon graphs with s faces and m=(m0,m1,,mj,)m*=(m_0,m_1,\ldots,m_j,\ldots) vertices of valencies (1,3,,2j+1,)(1,3,\ldots,2j+1,\ldots) ``can be expressed in terms of Mumford-Morita classes'': one gets an interpretation for univalent vertices. I also address the possible relationship with a recently formulated theory of constrained topological gravity.

Keywords

Cite

@article{arxiv.hep-th/9411206,
  title  = {Nodes as Composite Operators in Matrix Models},
  author = {Damiano Anselmi},
  journal= {arXiv preprint arXiv:hep-th/9411206},
  year   = {2010}
}

Comments

22 pages, latex, 1+5 figures. 1 figure available on request