The δ-invariant theory of Hecke correspondences on Ag

Abstract

Let p be a prime, let N≥ 3 be an integer prime to p, let R be the ring of p-typical Witt vectors with coefficients in an algebraic closure of Fp, and consider the correspondence A'g,1,N,R Ag,1,N,R obtained by taking the union of all prime to p Hecke correspondences on Mumford's moduli scheme of principally polarized abelian schemes of relative dimension g endowed with symplectic similitude level-N structure over R-schemes. It is well-known that the coequalizer Ag,1,N,R/ A'g,1,N,R of the above correspondence exists and is trivial in the category of schemes, i.e., is Spec(R). We construct and study in detail such a coequalizer (categorical quotient) in a more refined geometry (category) referred to as δ-geometry. This geometry is in essence obtained from the usual algebraic geometry by equipping all R-algebras with p-derivations. In particular, we prove that our substitute of Ag,1,N,R/ A'g,1,N,R in δ-geometry has the same `dimension' as Ag,1,N,R, thus solving a main open problem in the work of Barcau--Buium. We also give applications to the study of various Zariski dense loci in Ag,1,N,R such as of isogeny classes and of points with complex multiplication. To prove our results we develop a Serre--Tate expansion theory for Siegel δ-modular forms of arbitrary genus which we then combine with old and new results from the geometric invariant theory of multiple quadratic forms and of multiple endomorphisms.

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