Combinatorial models for moduli spaces of open Riemann surfaces

Abstract

We present a simplified formulation of open intersection numbers, as an alternative to the theory initiated by Pandharipande, Solomon and Tessler. The relevant moduli spaces consist of Riemann surfaces (either with or without boundary) with only interior marked points. These spaces have a combinatorial description using a generalization of ribbon graphs, with a straightforward compactification and corresponding intersection theory. Crucially, the generating functions for the two different constructions of open intersection numbers are identical. In particular, our construction provides a complete proof of the statement that this generating function is a solution of the MKP hierarchy, satisfies W-constraints, and additionally proves in the affirmative the Q-grading conjecture for distinguishing contributions from surfaces with different numbers of boundary components, as was previously proposed by the author.