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Thin Set Versions of Hindman's Theorem

In this paper we examine the reverse mathematical strength of a variation of Hindman's Theorem HT constructed by essentially combining HT with the Thin Set Theorem TS to obtain a principle which we call thin-HT. thin-HT says that every coloring $c: \mathbb{N} \to \mathbb{N}$ has an infinite set $S \subseteq \mathbb{N}$ whose finite sums are thin for $c$, meaning that there is an $i$ with $c(s) \neq i$ for all $s \in S$. We show that there is a computable instance of thin-HT such that every solution computes $\emptyset'$, as is the case with HT (see Blass, Hirst, and Simpson 1987). In analyzing this proof, we deduce that thin-HT implies $ACA_0$ over $RCA_0 + IΣ^0_2$. On the other hand, using Rumyantsev and Shen's computable version of the Lovász Local Lemma, we show that there is a computable instance of the restriction of thin-HT to sums of exactly 2 elements such that any solution has diagonally noncomputable degree relative to $\emptyset'$. Hence there is a computable instance of this restriction of thin-HT with no $Σ^0_2$ solution.