Clean tangled clutters, simplices, and projective geometries
Abstract
A clutter is \emph{clean} if it has no delta or the blocker of an extended odd hole minor, and it is \emph{tangled} if its covering number is two and every element appears in a minimum cover. Clean tangled clutters have been instrumental in progress towards several open problems on ideal clutters, including the Conjecture. Let be a clean tangled clutter. It was recently proved that has a fractional packing of value two. Collecting the supports of all such fractional packings, we obtain what is called the {\it core} of . The core is a duplication of the cuboid of a set of points, called the {\it setcore} of . In this paper, we prove three results about the setcore. First, the convex hull of the setcore is a full-dimensional polytope containing the center point of the hypercube in its interior. Secondly, this polytope is a simplex if, and only if, the setcore is the cocycle space of a projective geometry over the two-element field. Finally, if this polytope is a simplex of dimension more than three, then has the clutter of the lines of the Fano plane as a minor. Our results expose a fascinating interplay between the combinatorics and the geometry of clean tangled clutters.
Keywords
Cite
@article{arxiv.1908.10629,
title = {Clean tangled clutters, simplices, and projective geometries},
author = {Ahmad Abdi and Gérard Cornuéjols and Matt Superdock},
journal= {arXiv preprint arXiv:1908.10629},
year = {2021}
}