English

A Reciprocity Theorem for Monomer-Dimer Coverings

Combinatorics 2007-05-23 v2

Abstract

The problem of counting monomer-dimer coverings of a lattice is a longstanding problem in statistical mechanics. It has only been exactly solved for the special case of dimer coverings in two dimensions. In earlier work, Stanley proved a reciprocity principle governing the number N(m,n)N(m,n) of dimer coverings of an mm by nn rectangular grid (also known as perfect matchings), where mm is fixed and nn is allowed to vary. As reinterpreted by Propp, Stanley's result concerns the unique way of extending N(m,n)N(m,n) to n<0n < 0 so that the resulting bi-infinite sequence, N(m,n)N(m,n) for nZn \in {Z}, satisfies a linear recurrence relation with constant coefficients. In particular, Stanley shows that N(m,n)N(m,n) is always an integer satisfying the relation N(m,2n)=ϵm,nN(m,n)N(m,-2-n) = \epsilon_{m,n}N(m,n) where ϵm,n=1\epsilon_{m,n} = 1 unless mm\equiv 2(mod 4) and nn is odd, in which case ϵm,n=1\epsilon_{m,n} = -1. Furthermore, Propp's method is applicable to higher-dimensional cases. This paper discusses similar investigations of the numbers M(m,n)M(m,n), of monomer-dimer coverings, or equivalently (not necessarily perfect) matchings of an mm by nn rectangular grid. We show that for each fixed mm there is a unique way of extending M(m,n)M(m,n) to n<0n < 0 so that the resulting bi-infinite sequence, M(m,n)M(m,n) for nZn \in {Z}, satisfies a linear recurrence relation with constant coefficients. We show that M(m,n)M(m,n), a priori a rational number, is always an integer, using a generalization of the combinatorial model offered by Propp. Lastly, we give a new statement of reciprocity in terms of multivariate generating functions from which Stanley's result follows.

Keywords

Cite

@article{arxiv.math/0304359,
  title  = {A Reciprocity Theorem for Monomer-Dimer Coverings},
  author = {N. Anzalone and J. Baldwin and I. Bronshtein and T. K. Petersen},
  journal= {arXiv preprint arXiv:math/0304359},
  year   = {2007}
}

Comments

13 pages, 12 figures, to appear in the proceedings of the Discrete Models for Complex Systems (DMCS) 2003 conference. (v2 - some minor changes)