Large values of exponential sums with multiplicative coefficients

Abstract

In 1977 Montgomery and Vaughan gave tight bounds for exponential sums of the form Σn≤ xf(n)e(nα) where f is a 1-bounded multiplicative function and α∈ R, close to the conjectured xq+ x x where α is best approximated by |α-a/q|≤ 1/(qx), showing their results to be ``best-possible'' by observing that the first part of their bound is more-or-less attained when f(n)=(n), α= aq where is a primitive character mod q, and the second part when f(p)=e(-α p) for all large primes p. La Bret\`eche and Granville proved that when α lies on a major arc the exponential sum is significantly smaller unless f ``pretends to be'' (n)nit for some character and real number |t|< x; and herein we prove that when α lies on a minor arc, the exponential sum is significantly smaller unless f(p) pretends to be e(-hpα) for primes p≤ x for some bounded integer h. We also study exponential sums Σn≤ x, P+(n)≤ y f(n) e(nα) restricted to y-smooth (or y-friable) integers n. We conjecture that this sum is (x, y)q+ xy x in a wide range of parameters, show that if true this is best possible, and prove an upper bound in a wide range that is only slightly weaker than the conjecture. Finally we study the logarithmically weighted exponential sums Σn≤ x f(n)n e(nα). We conjecture that this sum is xq+ q in a wide range of parameters, show that if true this is best possible, and prove an upper bound in a wide range that is only slightly weaker than the conjecture. Along the way, we will prove various technical results about multiplicative functions which may be of use elsewhere.