Generation of measures on the torus with good sequences of integers

Abstract

Let S= (s1<s2<…) be a strictly increasing sequence of positive integers and denote e(β)=e2π i β. We say S is good if for every real α the limit N 1NΣn N e(snα) exists. By the Riesz representation theorem, a sequence S is good iff for every real α the sequence (snα) possesses an asymptotic distribution modulo 1. Another characterization of a good sequence follows from the spectral theorem: the sequence S is good iff in any probability measure preserving system (X,m,T) the limit N 1NΣn Nf(Tsnx) exists in L2-norm for f∈ L2(X). Of these three characterization of a good set, the one about limit measures is the most suitable for us, and we are interested in finding out what the limit measure μS,α= N1NΣn N δsnα on the torus can be. In this first paper on the subject, we investigate the case of a single irrational α. We show that if S is a good set then for every irrational α the limit measure μS,α must be a continuous Borel probability measure. Using random methods, we show that the limit measure μS,α can be any measure which is absolutely continuous with respect to the Haar-Lebesgue probability measure on the torus. On the other hand, if is the uniform probability measure supported on the Cantor set, there are some irrational α so that for no good sequence S can we have the limit measure μS,α equal . We leave open the question whether for any continuous Borel probability measure on the torus there is an irrational α and a good sequence S so that μS,α=.