Open AccessSharp Upper Bounds on the Minimum Number of Components of 2-factors in Claw-free Graphs
Author(s) -
Hajo Broersma,
Daniël Paulusma,
Kiyoshi Yoshimoto
Publication year - 2009
Publication title -
graphs and combinatorics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.59
H-Index - 40
eISSN - 1435-5914
pISSN - 0911-0119
DOI - 10.1007/s00373-009-0855-7
Subject(s) - mathematics , combinatorics , claw , quotient , graph , discrete mathematics , upper and lower bounds , mechanical engineering , mathematical analysis , engineering
Let G be a claw-free graph with order n and minimum degree δ. We improve results of Faudree et al. and Gould & Jacobson, and solve two open problems by proving the following two results. If δ = 4, then G has a 2-factor with at most (5n − 14)/18 components, unless G belongs to a finite class of exceptional graphs. If δ ≥ 5, then G has a 2-factor with at most (n − 3)/(δ − 1) components, unless G is a complete graph. These bounds are best possible in the sense that we cannot replace 5/18 by a smaller quotient and we cannot replace δ − 1 by δ, respectively
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