Nonconventional Poisson Limit Theorems

Abstract

The classical Poisson theorem says that if 1,2,... are i.i.d. 0--1 Bernoulli random variables taking on 1 with probability pn /n then the sum Sn=Σi=1ni is asymptotically in n Poisson distributed with the parameter . It turns out that this result can be extended to sums of the form Sn=Σi=1nq1(i)... q(i) where now pn(/n)1/ and 1≤ q1(i) <... <q(i) are integer valued increasing functions. We obtain also Poissonian limit for numbers of arrivals to small sets of -tuples Xq1(i),...,Xq(i) for some Markov chains Xn and for numbers of arrivals of Tq1(i)x,...,Tq(i)x to small cylinder sets for typical points x of a subshift of finite type T.