Higher moments of arithmetic functions in short intervals: a geometric perspective

Abstract

We study the geometry associated to the distribution of certain arithmetic functions, including the von Mangoldt function and the M\"obius function, in short intervals of polynomials over a finite field Fq. Using the Grothendieck-Lefschetz trace formula, we reinterpret each moment of these distributions as a point-counting problem on a highly singular complete intersection variety. We compute part of the -adic cohomology of these varieties, corresponding to an asymptotic bound on each moment for fixed degree n in the limit as q ∞. The results of this paper can be viewed as a geometric explanation for asymptotic results that can be proved using analytic number theory over function fields.