English

Iterated Sumsets and Subsequence Sums

Number Theory 2018-04-20 v2

Abstract

Let GZ/m1Z××Z/mrZG\cong \mathbb Z/m_1\mathbb Z\times\ldots\times \mathbb Z/m_r\mathbb Z be a finite abelian group with m1mr=exp(G)m_1\mid\ldots\mid m_r=\exp(G). The Kemperman Structure Theorem characterizes all subsets A,BGA,\,B\subseteq G satisfying A+B<A+B|A+B|<|A|+|B| and has been extended to cover the case when A+BA+B|A+B|\leq |A|+|B|. Utilizing these results, we provide a precise structural description of all finite subsets AGA\subseteq G with nA(A+1)n3|nA|\leq (|A|+1)n-3 when n3n\geq 3 (also when GG is infinite), in which case many of the pathological possibilities from the case n=2n=2 vanish, particularly for large nexp(G)1n\geq \exp(G)-1. The structural description is combined with other arguments to generalize a subsequence sum result of Olson asserting that a sequence SS of terms from GG having length S2G1|S|\geq 2|G|-1 must either have every element of GG representable as a sum of G|G|-terms from SS or else have all but G/H2|G/H|-2 of its terms lying in a common HH-coset for some HGH\leq G. We show that the much weaker hypothesis SG+exp(G)|S|\geq |G|+\exp(G) suffices to obtain a nearly identical conclusion, where for the case HH is trivial we must allow all but G/H1|G/H|-1 terms of SS to be from the same HH-coset. The bound on S|S| is improved for several classes of groups GG, yielding optimal lower bounds for S|S|. We also generalize Olson's result for G|G|-term subsums to an analogous one for nn-term subsums when nexp(G)n\geq \exp(G), with the bound likewise improved for several special classes of groups. This improves previous generalizations of Olson's result, with the bounds for nn optimal.

Keywords

Cite

@article{arxiv.1709.09285,
  title  = {Iterated Sumsets and Subsequence Sums},
  author = {David J. Grynkiewicz},
  journal= {arXiv preprint arXiv:1709.09285},
  year   = {2018}
}

Comments

Revised version, with results reworded to appear less technical

R2 v1 2026-06-22T21:56:01.761Z