Constant Congestion Brambles
Abstract
A bramble in an undirected graph is a family of connected subgraphs of such that for every two subgraphs and in the bramble either or there is an edge of with one endpoint in and the second endpoint in . The order of the bramble is the minimum size of a vertex set that intersects all elements of a bramble. Brambles are objects dual to treewidth: As shown by Seymour and Thomas, the maximum order of a bramble in an undirected graph equals one plus the treewidth of . However, as shown by Grohe and Marx, brambles of high order may necessarily be of exponential size: In a constant-degree -vertex expander a bramble of order requires size exponential in for any fixed . On the other hand, the combination of results of Grohe and Marx and Chekuri and Chuzhoy shows that a graph of treewidth admits a bramble of order and size . ( and hide polylogarithmic factors and divisors, respectively.) In this note, we first sharpen the second bound by proving that every graph of treewidth at least contains a bramble of order and congestion , i.e., every vertex of is contained in at most two elements of the bramble (thus the bramble is of size linear in its order). Second, we provide a tight upper bound for the lower bound of Grohe and Marx: For every , every graph of treewidth at least contains a bramble of order and size .
Cite
@article{arxiv.2008.02133,
title = {Constant Congestion Brambles},
author = {Meike Hatzel and Pawel Komosa and Marcin Pilipczuk and Manuel Sorge},
journal= {arXiv preprint arXiv:2008.02133},
year = {2023}
}