Torsion for abelian varieties of type III

Abstract

Let A be an abelian variety defined over a number field K. The number of torsion points that are rational over a finite extension L is bounded polynomially in terms of the degree [L:K] of L over K. Under the following three conditions, we compute the optimal exponent for this bound in terms of the dimension of abelian subvarieties and their endomorphism rings: (1) A is geometrically isogenous to a product of simple abelian varieties of type I, II or III, according to the Albert classification; (2) A is of “Lefschetz type”, that is, the Mumford–Tate group is the group of symplectic or orthogonal similitudes which commute with the endomorphism ring; (3) A satisfies the Mumford–Tate Conjecture. This result is unconditional for a product of simple abelian varieties of type I, II or III with specific relative dimensions. Further, building on work of Serre, Pink, Banaszak, Gajda and Krasoń, we also prove the Mumford–Tate Conjecture for a few new cases of abelian varieties of Lefschetz type.