English

Spectral problem on graphs and L-functions

Mesoscale and Nanoscale Physics 2015-06-25 v1 High Energy Physics - Theory Dynamical Systems

Abstract

The scattering process on multiloop infinite p+1-valent graphs (generalized trees) is studied. These graphs are discrete spaces being quotients of the uniform tree over free acting discrete subgroups of the projective group PGL(2,Qp)PGL(2, {\bf Q}_p). As the homogeneous spaces, they are, in fact, identical to p-adic multiloop surfaces. The Ihara-Selberg L-function is associated with the finite subgraph-the reduced graph containing all loops of the generalized tree. We study the spectral problem on these graphs, for which we introduce the notion of spherical functions-eigenfunctions of a discrete Laplace operator acting on the graph. We define the S-matrix and prove its unitarity. We present a proof of the Hashimoto-Bass theorem expressing L-function of any finite (reduced) graph via determinant of a local operator Δ(u)\Delta(u) acting on this graph and relate the S-matrix determinant to this L-function thus obtaining the analogue of the Selberg trace formula. The discrete spectrum points are also determined and classified by the L-function. Numerous examples of L-function calculations are presented.

Keywords

Cite

@article{arxiv.cond-mat/9911244,
  title  = {Spectral problem on graphs and L-functions},
  author = {L. Chekhov},
  journal= {arXiv preprint arXiv:cond-mat/9911244},
  year   = {2015}
}

Comments

39 pages, LaTeX, to appear in Russ. Math. Surv