B-free sets and dynamics

Abstract

Let B⊂ N and let η∈ \0,1\Z be the characteristic function of the set FB:=ZbbZ of B-free numbers. Consider (S,Xη), where Xη is the closure of the orbit of η under the left shift S. When B=\p2 : p∈ P\, (S,Xη) was studied by Sarnak. This case + some generalizations, including the case (*) of B infinite, coprime with Σb1/b<∞, were discussed by several authors. For general B, contrary to (*), we may have Xη⊂neq XB:=\x∈ \0,1\Z : |supp x b|≤ b-1 ∀b\. Also, Xη may not be hereditary (heredity means that if x∈ X and y≤ x coordinatewise then y∈ X). We show that η is quasi-generic for a natural measure η. We solve the problem of proximality by showing first that Xη has a unique minimal (Toeplitz) subsystem. Moreover B-free system is proximal iff B contains an infinite coprime set. B is taut when δ(FB)<δ(FB \b\ ) for each b. We give a characterization of taut B in terms of the support of η. Moreover, for any B there exists a taut B' with η=η'. For taut sets B,B', we have B=B' iff XB=XB'. For each B there is a taut B' with Xη'⊂ Xη and all invariant measures for (S,Xη) live on Xη'. (S,Xη) is shown to be intrinsically ergodic for all B. We give a description of all invariant measures for (S,Xη). The topological entropies of (S,Xη) and (S,XB) are both equal to d(FB). We show that for a subclass of taut B-free systems proximality is the same as heredity. Finally, we give applications in number theory on gaps between consecutive B-free numbers. We apply our results to the set of abundant numbers.