Tropicalizing abelian covers of algebraic curves

Abstract

In this thesis, we study the Berkovich skeleton of an algebraic curve over a discretely valued field K. We do this using coverings C→P1 of the projective line. To study these coverings, we take the Galois closure of the corresponding injection of function fields K(P1)→K(C), giving a Galois morphism C→P1. A theorem by Liu and Lorenzini tells us how to associate to this morphism a Galois morphism of semistable models C→D. That is, we make the branch locus disjoint in the special fiber of D and remove any vertical ramification on the components of Ds. This morphism C→D then gives rise to a morphism of intersection graphs (C)→(D). Our goal is to reconstruct (C) from (D) and we will do this by giving a set of covering and twisting data. These then give algorithms for finding the Berkovich skeleton of a curve C whenever that curve has a morphism C→P1 with a solvable Galois group. In particular, this gives an algorithm for finding the Berkovich skeleton of any genus three curve. These coverings also give a new proof of a classical result on the semistable reduction type of an elliptic curve, saying that an elliptic curve has potential good reduction if and only if the valuation of the j-invariant is positive.