Discussiones Mathematicae Graph Theory (Feb 2022)

Degree Sum Condition for the Existence of Spanning k-Trees in Star-Free Graphs

  • Furuya Michitaka,
  • Maezawa Shun-ichi,
  • Matsubara Ryota,
  • Matsuda Haruhide,
  • Tsuchiya Shoichi,
  • Yashima Takamasa

DOI
https://doi.org/10.7151/dmgt.2234
Journal volume & issue
Vol. 42, no. 1
pp. 5 – 13

Abstract

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For an integer k ≥ 2, a k-tree T is defined as a tree with maximum degree at most k. If a k-tree T spans a graph G, then T is called a spanning k-tree of G. Since a spanning 2-tree is a Hamiltonian path, a spanning k-tree is an extended concept of a Hamiltonian path. The first result, implying the existence of k-trees in star-free graphs, was by Caro, Krasikov, and Roditty in 1985, and independently, Jackson and Wormald in 1990, who proved that for any integer k with k ≥ 3, every connected K1,k-free graph contains a spanning k-tree. In this paper, we focus on a sharp condition that guarantees the existence of a spanning k-tree in K1,k+1-free graphs. In particular, we show that every connected K1,k+1-free graph G has a spanning k-tree if the degree sum of any 3k − 3 independent vertices in G is at least |G| − 2, where |G| is the order of G.

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