Moduli of hybrid curves II: Tropical and hybrid Laplacians

TL;DR

This paper develops hybrid Laplacians and Green functions to analyze the asymptotic behavior of Arakelov Green functions on Riemann surfaces near moduli space boundaries, connecting tropical and hybrid geometries.

Contribution

It introduces hybrid Laplacians, formulates a hybrid Poisson equation, and describes the asymptotics of Green functions, advancing the understanding of hybrid geometry and operator theory on metric graphs.

Findings

Layered description of Green function asymptotics near moduli space boundary

Convergence of Laplace operators from metric graphs to tropical limits

Introduction of higher rank tropical moduli spaces and hybrid analysis

Abstract

The present paper is a sequel to our work on hybrid geometry of curves and their moduli spaces. We introduce a notion of hybrid Laplacian, formulate a hybrid Poisson equation, and give a mathematical meaning to the convergence both of the Laplace operator and the solutions to the Poisson equation on Riemann surfaces. As the main theorem of this paper, we then obtain a layered description of the asymptotics of Arakelov Green functions on Riemann surfaces close to the boundary of their moduli spaces. This is done in terms of a suitable notion of hybrid Green functions. As a byproduct of our approach, we obtain other results of independent interest. In particular, we introduce higher rank canonical compactifications of fans and polyhedral spaces and use them to define the moduli space of higher rank tropical curves. Moreover, we develop the first steps of a function theory in higher rank non-Archimedean, hybrid, and tame analysis. Furthermore, we establish the convergence of the Laplace operator on metric graphs toward the tropical Laplace operator on limit tropical curves in the corresponding moduli spaces, leading to new perspectives in operator theory on metric graphs. Our result on the Arakelov Green function is inspired by the works of several authors, in particular those of Faltings, de Jong, Wentworth and Wolpert, and solves a long-standing open problem arising from the Arakelov geometry of Riemann surfaces. The hybrid layered behavior close to the boundary of moduli spaces is expected to be a broad phenomenon and will be explored in our forthcoming work.