核心概念
The author explores the relationship between (n, m)-chromatic numbers and sparsity parameters in graphs, revealing new insights and bounds.
要約
The content delves into (n, m)-graphs' chromatic numbers and their connections to sparsity parameters. It discusses homomorphisms, acyclic chromatic numbers, and planar graphs. Theorems are proven regarding arboricity, acyclic chromatic numbers, and partial 2-trees. The study provides valuable insights into graph theory concepts.
統計
For every positive integer k ≥ 2 and r ≥ 2, there exists an (n, m)-graph Gk having arb(und(Gk)) ≤ r and χn,m(Gk) ≥ k.
Let G be a graph with mad(G) < 2 + 2 / [4(2n+m)−1]. Then χn,m(G) = 2(2n+m)+1.
Let Pg denote the family of planar graphs having girth at least g. Then for all g ≥ 8(2n + m), χn,m(Pg) = 2(2n + m) + 1.
For the family of T2 of partial 2-trees we have: (i) 14 ≤ χ0,3(T2) ≤ 15; (ii) 14 ≤ χ1,1(T2) ≤ 21.