Factorizations of Moduli Morphisms and Universal Maps to Deligne-Mumford Stacks

Abstract

Let X be an algebraic stack admitting a moduli space Xmod. We study the factorizations of the moduli space morphism X→Xmod to construct intermediate stacks that simplify the stacky structure of X while retaining more structural information than Xmod. Under mild assumptions, we prove the existence of a universal morphism from X to stacks satisfying well-behaved `modular properties' (such as being Deligne-Mumford, having finite inertia, or being uniformizable), and show that this universal map is itself an adequate moduli space morphism. We achieve this by proving that ascending chains of adequate moduli space morphisms from a Noetherian stack stabilize if they are cohomologically affine or with target Deligne-Mumford stacks. Finally, we demonstrate that stabilization completely fails for general adequate moduli space morphisms. We construct a simple Noetherian, Deligne-Mumford stack admitting an infinite, non-stabilizing chain of adequate moduli space morphisms, whose limit is a non-algebraic fpqc stack.