Point counts of abelian varieties over finite fields determining their zeta function

Abstract

Let A be an abelian variety of dimension g over a finite field Fq. We show that if q is sufficiently large relative to g, the g point counts \#A(Fqi) for 1 ≤ i ≤ g determine the zeta function of A, equivalently the characteristic polynomial of its Frobenius endomorphism, and hence the isogeny class of A. This count is best possible for g=2 and g=4, but not in general: for g=3 two point counts already determine the zeta function, whereas a single count never does. The proof combines the functional equation of the L-polynomial with Newton's identities and an inductive error analysis that controls the power sums of the inverse Frobenius eigenvalues with enough precision to recover them, as integers, by rounding.