English

Long induced paths and forbidden patterns: Polylogarithmic bounds

Discrete Mathematics 2026-01-22 v2 Combinatorics

Abstract

Consider a graph GG with a long path PP. When is it the case that GG also contains a long induced path? This question has been investigated in general as well as within a number of different graph classes since the 80s. We have recently observed in a companion paper (Long induced paths in sparse graphs and graphs with forbidden patterns, arXiv:2411.08685, 2024) that most existing results can recovered in a simple way by considering forbidden ordered patterns of edges along the path PP. In particular we proved that if we forbid some fixed ordered matching along a path of order nn in a graph GG, then GG must contain an induced path of order (logn)Ω(1)(\log n)^{\Omega(1)}. Moreover, we completely characterized the forbidden ordered patterns forcing the existence of an induced path of polynomial size. The purpose of the present paper is to completely characterize the ordered patterns HH such that forbidding HH along a path PP of order nn implies the existence of an induced path of order (logn)Ω(1)(\log n)^{\Omega(1)}. These patterns are star forests with some specific ordering, which we called constellations. As a direct consequence of our result, we show that if a graph GG has a path of length nn and does not contain KtK_t as a topological minor, then GG contains an induced path of order (logn)Ω(1/tlog2t)(\log n)^{\Omega(1/t \log^2 t)}. The previously best known bound was (logn)f(t)(\log n)^{f(t)} for some unspecified function ff depending on the Topological Minor Structure Theorem of Grohe and Marx (2015).

Keywords

Cite

@article{arxiv.2412.14863,
  title  = {Long induced paths and forbidden patterns: Polylogarithmic bounds},
  author = {Julien Duron and Louis Esperet and Jean-Florent Raymond},
  journal= {arXiv preprint arXiv:2412.14863},
  year   = {2026}
}

Comments

28 pages. v2: revised version. Some material from arXiv:2304.09679 has been reused (such as definitions and remarks), so text overlap is to be expected

R2 v1 2026-06-28T20:42:15.448Z