Triangulations of Flow Polytopes, Ample Framings, and Gentle Algebras

TL;DR

This paper explores the triangulations of flow polytopes derived from DAGs, introduces ample framings, and connects these geometric structures to gentle algebras, revealing new properties like Gorensteinness and unimodal Ehrhart polynomials.

Contribution

It characterizes DAGs that admit ample framings, enumerates these framings, and links triangulations to gentle algebras, establishing new geometric and algebraic properties.

Findings

Flow polytopes for full DAGs are Gorenstein.

Unimodal Ehrhart h*-polynomials are proven for certain flow polytopes.

A connection between triangulations and $ au$-tilting posets is established.

Abstract

The cone of nonnegative flows for a directed acyclic graph (DAG) is known to admit regular unimodular triangulations induced by framings of the DAG. These triangulations restrict to triangulations of the flow polytope for strength one flows, which are called DKK triangulations. For a special class of framings called ample framings, these triangulations of the flow cone project to a complete fan. We characterize the DAGs that admit ample framings, and we enumerate the number of ample framings for a fixed DAG. We establish a connection between maximal simplices in DKK triangulations and $\tau$-tilting posets for certain gentle algebras, which allows us to impose a poset structure on the dual graph of any DKK triangulation for an amply framed DAG. Using this connection, we are able to prove that for full DAGs, i.e., those DAGs with inner vertices having in-degree and out-degree equal to two, the flow polytopes are Gorenstein and have unimodal Ehrhart $h^\ast$-polynomials.