Every finite set of natural numbers is realizable as algebraic periods of a Morsex2013Smale diffeomorphism

Abstract

A given self-map f M M of a compact manifold determines the sequence (L(fn)) of the Lefschetz numbers of its iterations. We consider its dual sequence (an(f)) given by the M\"obius inversion formula. The set AP(f)=\ n∈ N\ \ an(f)≠ 0\ is called the set of algebraic periods. We solve an open problem existing in literature by showing that for every finite subset A of natural numbers there exist an orientable surface S g, as well as a non-orientable surface N g, of genus g, and a Morsex2013Smale diffeomorphism f of this surface such that AP(f)=A. For such a map it implies the existence of points of a minimal period n for each odd n ∈ A. For the orientation-reversing Morsex2013Smale diffeomorphisms of S g, we identify strong restrictions on AP(f). Our method also provides an estimate of the number of conjugacy classes of mapping classes containing Morsex2013Smale diffeomorphisms, which is exponential in g.