Pointwise ergodic theorems along fractional powers of primes
Abstract
We establish pointwise convergence for nonconventional ergodic averages taken along pc, where p is a prime number and c∈(1,4/3) on Lr, r∈(1,∞). In fact, we consider averages along more general sequences h(p), where h belongs in a wide class of functions, the so-called c-regularly varying functions. We also establish uniform multiparameter oscillation estimates for our ergodic averages and the corresponding multiparameter pointwise ergodic theorem in the spirit of Dunford and Zygmund. A key ingredient of our approach are certain exponential sum estimates, which we also use for establishing a Waring-type result. Assuming that the Riemann zeta function has any zero-free strip upgrades our exponential sum estimates to polynomially saving ones and this makes a conditional result regarding the behavior of our ergodic averages on L1 to not seem entirely out of reach.
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