English

Simple recurrence formulas to count maps on orientable surfaces

Combinatorics 2015-05-20 v3

Abstract

We establish a simple recurrence formula for the number QgnQ_g^n of rooted orientable maps counted by edges and genus. We also give a weighted variant for the generating polynomial Qgn(x)Q_g^n(x) where xx is a parameter taking the number of faces of the map into account, or equivalently a simple recurrence formula for the refined numbers Mgi,jM_g^{i,j} that count maps by genus, vertices, and faces. These formulas give by far the fastest known way of computing these numbers, or the fixed-genus generating functions, especially for large gg. In the very particular case of one-face maps, we recover the Harer-Zagier recurrence formula. Our main formula is a consequence of the KP equation for the generating function of bipartite maps, coupled with a Tutte equation, and it was apparently unnoticed before. It is similar in look to the one discovered by Goulden and Jackson for triangulations, and indeed our method to go from the KP equation to the recurrence formula can be seen as a combinatorial simplification of Goulden and Jackson's approach (together with one additional combinatorial trick). All these formulas have a very combinatorial flavour, but finding a bijective interpretation is currently unsolved.

Keywords

Cite

@article{arxiv.1402.6300,
  title  = {Simple recurrence formulas to count maps on orientable surfaces},
  author = {Sean R. Carrell and Guillaume Chapuy},
  journal= {arXiv preprint arXiv:1402.6300},
  year   = {2015}
}

Comments

Version 3: We changed the title once again. We also corrected some misprints, gave another equivalent formulation of the main result in terms of vertices and faces (Thm. 5), and added complements on bivariate generating functions. Version 2: We extended the main result to include the ability to track the number of faces. The title of the paper has been changed accordingly

R2 v1 2026-06-22T03:15:39.928Z