Polynomial extensions of Raimi's theorem

Abstract

Raimi's theorem guarantees the existence of a partition of N into two parts with an unavoidable intersection property: for any finite coloring of N, some color class intersects both parts infinitely many times, after an appropriate shift (translation). We establish a polynomial extension of this result, proving that such intersections persist under polynomial shifts in any dimension. Let P(1),…,P(f)∈Z[x] be non-constant polynomials with positive leading coefficients and P(j)(0)=0 for every j. We construct a partition of Nk into an arbitrarily fixed finite number of pieces such that for any coloring of Nk with finitely many colors, there exist x0∈ N and a single color class that meets all partition pieces after shifts by x0+P(j)(h) in each of the k coordinate directions, for every j and infinitely many values h∈ N. Our proof exploits Weyl's equidistribution theory, Pontryagin duality, and the structure of polynomial relation lattices. We also prove some finite analogues of the above results for abelian groups and SL2(Fq).

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