An analytic version of stable arithmetic regularity

Abstract

We prove a structure theorem for stable functions on amenable groups, which extends the arithmetic regularity lemma for stable subsets of finite groups. Given a group G, a function f G [-1,1] is called stable if the binary function f(x· y) is stable in the sense of continuous logic. Roughly speaking, our main result says that if G is amenable, then any stable function on G is almost constant on all translates of a unitary Bohr neighborhood in G of bounded complexity. The proof uses ingredients from topological dynamics and continuous model theory. We also prove several applications which generalize results in arithmetic combinatorics to nonabelian groups.