English

Root polytopes and Jaeger-type dissections for directed graphs

Combinatorics 2024-08-16 v3

Abstract

We associate root polytopes to directed graphs and study them by using ribbon structures. Most attention is paid to what we call the semi-balanced case, i.e., when each cycle has the same number of edges pointing in the two directions. Given a ribbon structure, we identify a natural class of spanning trees and show that, in the semi-balanced case, they induce a shellable dissection of the root polytope into maximal simplices. This allows for a computation of the hh^*-vector of the polytope and for showing some properties of this new graph invariant, such as a product formula and that in the planar case, the hh^*-vector is equivalent to the greedoid polynomial of the dual graph. We obtain a general recursion relation as well. We also work out the case of layer-complete directed graphs, where our method recovers a previously known triangulation. Indeed our dissection is often but not always a triangulation; we address this with a series of examples.

Keywords

Cite

@article{arxiv.2105.00960,
  title  = {Root polytopes and Jaeger-type dissections for directed graphs},
  author = {Tamás Kálmán and Lilla Tóthmérész},
  journal= {arXiv preprint arXiv:2105.00960},
  year   = {2024}
}

Comments

new recursion formula added

R2 v1 2026-06-24T01:44:15.322Z