Arithmetic liftings and 2d TQFT for dormant opers of higher level

Abstract

This manuscript represents an advance in the enumerative geometry of opers that takes the subject beyond our previous work. Motivated by a counting problem of linear differential equations in positive characteristic, we investigate the moduli space of opers from arithmetic and combinatorial points of view. We construct a compactified moduli space classifying dormant PGLn(N)-opers (i.e., dormant PGLn-opers of level N) on pointed stable curves in characteristic p>0. One of the key results is the generic \'etaleness of that space for n=2, which is proved by obtaining a detailed understanding of relevant deformation spaces. This fact induces a certain arithmetic lifting of each dormant PGL2(N)-oper on a general curve to characteristic pN; this lifting is called the canonical diagonal lifting. On the other hand, the generic \'etaleness also implies that the degree function for the moduli spaces in the rank 2 case satisfies factorization properties determined by various gluing morphisms of the underlying curves. That is to say, the degree function forms a 2d TQFT (= a 2-dimensional topological quantum field theory); it leads us to describe dormant PGL2(N)-opers in terms of edge numberings on trivalent graphs, as well as lattice points inside generalized rational polytopes. These results yield an effective way of computing the numbers of such objects and 2nd order differential equations in characteristic pN with a full set of solutions.