The strong chromatic index of Kt,t-free graphs

Abstract

A strong edge coloring of a graph G is an edge coloring φ\,:\,E(G) → N such that each color class forms an induced matching in G. The strong chromatic index of G, written 's(G), is the minimum number of colors needed for a strong edge coloring of G. Erdos and Nesetril conjectured in 1985 that if G has maximum degree d, then 's(G) ≤ 54 d2. Mahdian showed in 2000 that if G is C4-free, then 's(G) ≤ (2+o(1)) d2 d, and he conjectured that the same upper bound holds for Kt,t-free graphs. In this paper, we prove this conjecture and improve upon it to show the following: every Kt,t-free graph G of maximum degree d satisfies 's(G) ≤ (1+o(1)) d2 d. We employ a variant of the R\"odl nibble method to prove this result. The key new ingredient in our adaptation of the method is an application of the Kov\'ari-S\'os-Tur\'an theorem to show that H := L(G)2 satisfies certain structural properties. These properties, in conjunction with a variant of Talagrand's inequality to handle exceptional outcomes, allow us to concentrate the sizes of certain vertex sets through the nibble, even when these vertex sets have order smaller than the maximum codegree of H. We encapsulate these structural properties into a more general statement on list coloring that we believe to be of independent interest. In light of the conjectured computational threshold for coloring random graphs arising in average-case complexity theory, we suspect that our result is best possible using this approach.

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