English

Long induced paths in sparse graphs and graphs with forbidden patterns

Combinatorics 2024-11-14 v1 Discrete Mathematics

Abstract

Consider a graph GG with a path PP of order nn. What conditions force GG to also have a long induced path? As complete bipartite graphs have long paths but no long induced paths, a natural restriction is to forbid some fixed complete bipartite graph Kt,tK_{t,t} as a subgraph. In this case we show that GG has an induced path of order (loglogn)1/5o(1)(\log \log n)^{1/5-o(1)}. This is an exponential improvement over a result of Galvin, Rival, and Sands (1982) and comes close to a recent upper bound of order O((loglogn)2)O((\log \log n)^2). Another way to approach this problem is by viewing GG as an ordered graph (where the vertices are ordered according to their position on the path PP). From this point of view it is most natural to consider which ordered subgraphs need to be forbidden in order to force the existence of a long induced path. Focusing on the exclusion of ordered matchings, we improve or recover a number of existing results with much simpler proofs, in a unified way. We also show that if some forbidden ordered subgraph forces the existence of a long induced path in GG, then this induced path has size at least Ω((logloglogn)1/3)\Omega((\log \log \log n)^{1/3}), and can be chosen to be increasing with respect to PP.

Keywords

Cite

@article{arxiv.2411.08685,
  title  = {Long induced paths in sparse graphs and graphs with forbidden patterns},
  author = {Julien Duron and Louis Esperet and Jean-Florent Raymond},
  journal= {arXiv preprint arXiv:2411.08685},
  year   = {2024}
}

Comments

26 pages, 8 figures. Comments welcome !

R2 v1 2026-06-28T19:58:27.405Z