A cubic nonconventional ergodic average with multiplicative or Mangoldt weights

Abstract

We show that the cubic nonconventional ergodic averages of any order with a bounded multiplicative function weight converge almost surely to zero provided that the multiplicative function satisfies a strong Daboussi-Delange condition. We further obtain that the Ces\`aro mean of the self-correlations and some moving average of the self-correlations of such multiplicative functions converge to zero. Our proof gives, for any N ≥ 2, 1NΣm=1N|1NΣn=1N (n) (n+m)| ≤ C(N)ε, and 1N2Σn,p=1N|1NΣm=1N (m) (n+m)(m+p)(n+m+p)| ≤ C(N), where C, are some positive constants and is a bounded multiplicative function satisfying a Daboussi-Delange condition with logarithmic speed. We further establish that the cubic nonconventional ergodic averages of any order with Mangoldt weight converge almost surely provided that all the systems are nilsystems.