Hindman's Coloring Theorem in arbitrary semigroups

Abstract

Hindman's Theorem asserts that, for each finite coloring of the natural numbers, there are distinct natural numbers a1,a2,… such that all of the sums ai1+ai2+…+aim (m 1, i1<i2<…<im) have the same color. The celebrated Galvin--Glazer proof of Hindman's Theorem and a classification of semigroups due to Shevrin, imply together that, for each finite coloring of each infinite semigroup S, there are distinct elements a1,a2,… of S such that all but finitely many of the products ai1ai2·s aim (m 1, i1<i2<…<im) have the same color. Using these methods, we characterize the semigroups S such that, for each finite coloring of S, there is an infinite subsemigroup T of S, such that all but finitely many members of T have the same color. Our characterization connects our study to a classical problem of Milliken, Burnside groups and Tarski Monsters. We also present an application of Ramsey's graph-coloring theorem to Shevrin's theory.