English

Inverse Additive Problems for Minkowski Sumsets II

Number Theory 2013-11-19 v1 Classical Analysis and ODEs

Abstract

The Brunn-Minkowski Theorem asserts that μd(A+B)1/dμd(A)1/d+μd(B)1/d\mu_d(A+B)^{1/d}\geq \mu_d(A)^{1/d}+\mu_d(B)^{1/d} for convex bodies A,BRdA,\,B\subseteq \R^d, where μd\mu_d denotes the dd-dimensional Lebesgue measure. It is well-known that equality holds if and only if AA and BB are homothetic, but few characterizations of equality in other related bounds are known. Let HH be a hyperplane. Bonnesen later strengthened this bound by showing μd(A+B)(M1/(d1)+N1/(d1))d1(μd(A)M+μd(B)N),\mu_d(A+B)\geq (M^{1/(d-1)}+N^{1/(d-1)})^{d-1}(\frac{\mu_d(A)}{M}+\frac{\mu_d(B)}{N}), where M=sup{μd1((x+H)A)xRd}M=\sup\{\mu_{d-1}((\mathbf x+H)\cap A)\mid \mathbf x\in \R^d\} and N=sup{μd1((y+H)B)yRd}N=\sup\{\mu_{d-1}((\mathbf y+H)\cap B)\mid \mathbf y\in \R^d\}. Standard compression arguments show that the above bound also holds when M=μd1(π(A))M=\mu_{d-1}(\pi(A)) and N=μd1(π(B))N=\mu_{d-1}(\pi(B)), where π\pi denotes a projection of Rd\mathbb R^d onto HH, which gives an alternative generalization of the Brunn-Minkowski bound. In this paper, we characterize the cases of equality in this later bound, showing that equality holds if and only if AA and BB are obtained from a pair of homothetic convex bodies by `stretching' along the direction of the projection, which is made formal in the paper. When d=2d=2, we characterize the case of equality in the former bound as well.

Keywords

Cite

@article{arxiv.1012.3610,
  title  = {Inverse Additive Problems for Minkowski Sumsets II},
  author = {G. A. Freiman and D. J. Grynkiewicz and O. Serra and Y. Stanchescu},
  journal= {arXiv preprint arXiv:1012.3610},
  year   = {2013}
}
R2 v1 2026-06-21T16:59:46.055Z