On the Chaos in Continuous Weakly Mixing Maps

Abstract

Let X be an infinite locally compact separable metric space with metric and let f : X X be a continuous weakly mixing map. Let β = \ (x, y): \x, y \ ⊂ X \. In this note, we show (Theorem 4) that, for any countably infinite set \x1, x2, ·s\ of points in X with compact orbit closures Of(xi)'s, there exist an infinite set M of positive integers and countably infinitely many pairwise disjoint Cantor sets S(1), S(2), ·s of totally transitive points of f such that (1) for any integers 1 and n 1, ! divides all sufficiently large integers in M and for any distinct points a1, a2, ·s, an in S = j=1∞ \, S(j), the set \ Fnm((a1, a2, ·s, an)): m ∈ M \ is dense in X × X × ·s × X (n terms), where Fn((a1, a2, ·s, an)) = (f(a1), f(a2), ·s, f(an)); (2) S is a dense β-scrambled set of fn for all n 1; (3) for any x in \x1, x2, ·s\ and any c in S = i=0∞ \, fi( S), \ x, c \ is a (β/2)-scrambled set of f. Furthermore, if f has a fixed point and δ = ∈fn 1 \ \ (fn(x), x): x ∈ X \ \ 0, then the above Cantor sets S(1), S(2), ·s can be chosen to satisfy the additional property that S = i=0∞ fi( S) is a dense invariant δ-scrambled set of fn for all n 1. For continuous mixing maps on X, we have a stronger result (Theorem 5). A notion of chaos is also introduced.