Eric O. D. Andriantiana, Valisoa Razanajatovo Misanantenaina, Stephan Wagner
Published 2020-08-03Version 1
The greedy tree $\mathcal{G}(D)$ and the $\mathcal{M}$-tree $\mathcal{M}(D)$ are known to be extremal among trees with degree sequence $D$ with respect to various graph invariants. This paper provides a general theorem that covers a large family of invariants for which $\mathcal{G}(D)$ or $\mathcal{M}(D)$ is extremal. Many known results, for example on the Wiener index, the number of subtrees, the number of independent subsets and the number of matchings follow as corollaries, as do some new results on invariants such as the number of rooted spanning forests, the incidence energy and the solvability. We also extend our results on trees with fixed degree sequence $D$ to the set of trees whose degree sequence is majorised by a given sequence $D$, which also has a number of applications.
Comments: 32 Pages, 9 Figures
Trees maximizing the number of almost-perfect matchings
Wiener index of graphs with fixed number of pendant or cut vertices
Some results on the Wiener index related to the Šoltés problem of graphs
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