A Hal\'asz-type asymptotic formula for logarithmic means and its consequences

Abstract

We establish an asymptotic formula for the logarithmic mean value of a 1-bounded multiplicative function that is sharp in many cases of interest. We derive from it a variety of applications, making progress on several old problems. As a first application, we show that if f is a completely multiplicative function taking values in [-1,1] then there is a constant c > 0 such that for every x ≥ 3, Lf(x) := Σn ≤ x f(n)n > -c( x)1-2/π, thus significantly improving on a 20-year-old result of Granville and Soundararajan. We also show that the exponent of x in this result can be improved to -1+o(1), as long as f does not ``behave like'' the Liouville function λ in a precise sense. As a second application, we show that for a Rademacher random completely multiplicative function f, the probability that Lf(x) is negative is O((-xc)) for some c ∈ (0,1), thus establishing a previously conjectured bound. Finally, we obtain a converse theorem for small absolute values |Lf(x)|, and construct examples f that show that it is (essentially) best possible.