#### Vol. 12, No. 2, 2019

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A characterization of the sets of periods within shifts of finite type

### Madeline Doering and Ronnie Pavlov

Vol. 12 (2019), No. 2, 203–220
DOI: 10.2140/involve.2019.12.203
##### Abstract

We characterize precisely the possible sets of periods and least periods for the periodic points of a shift of finite type (SFT). We prove that a set is the set of least periods of some mixing SFT if and only if it is either $\left\{1\right\}$ or cofinite, and the set of periods of some mixing SFT if and only if it is cofinite and closed under multiplication by arbitrary natural numbers. We then use these results to derive similar characterizations for the class of irreducible SFTs and the class of all SFTs. Specifically, a set is the set of (least) periods for some irreducible SFT if and only if it can be written as a natural number times the set of (least) periods for some mixing SFT, and a set is the set of (least) periods for an SFT if and only if it can be written as the finite union of the sets of (least) periods for some irreducible SFTs. Finally, we prove that the possible sets of (least) periods of mixing sofic shifts are exactly the same as for mixing SFTs, and that the same is not true for the class of nonmixing sofic shifts.

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##### Keywords
periodic points, shifts of finite type, Sharkovsky's theorem
Primary: 37B10
Secondary: 37E15