Combinatorial Theory

A graph whose nodes have degree \(1\) or \(3\) is called a \(\{1,3\}\)-graph. Liu and Osserman associated a polytope to each \(\{1,3\}\)-graph and studied the Ehrhart quasi-polynomials of these polytopes. They showed that the vertices of these polytopes have coordinates in the set \(\{0,\frac14,\frac12,1\}\), which implies that the period of their Ehrhart quasi-polynomials is either \(1, 2\), or \(4\). We show that the period of the Ehrhart quasi-polynomial of these polytopes is 2 if the graph is a tree, the period is at most 2 if the graph is cubic, and the period is \(4\) otherwise. In the process of proving this theorem, several interesting combinatorial and geometric properties of these polytopes were uncovered, arising from the structure of their associated graphs. The tools developed here may find other applications in the study of Ehrhart quasi-polynomials and enumeration problems for other polytopes that arise from graphs. Additionally, we have identified some interesting connections with triangulations of 3-manifolds.

Mathematics Subject Classifications: 05C30, 05C76, 52B20

Keywords: Ehrhart polynomials, period collapse