On the independence polynomial of an antiregular graph

Vadim E. Levit, Eugen Mandrescu

Research output: Contribution to journalArticlepeer-review

6 Scopus citations

Abstract

A graph with at most two vertices of the same degree is known as antiregular [Merris, R., Antiregular graphs are universal for trees, Publ. Electrotehn. Fak. Univ. Beograd, Ser. Mat. 14 (2003) 1-3], aximally nonregular [Zykov, A. A., Fundamentals of graph theory, BCS Associates, Moscow, 1990] or quasiperfect [Behzad, M. and Chartrand, D. M., No graph is perfect, Amer. Math. Monthly 74 (1967), 962-963]. If s k is the number of independent sets of cardinality k in a graph G, then I(G; x) = s 0 + s 1x +...+ s αx α is the independence polynomial of G [Gutman, I. and Harary, F., Generalizations of the matching polynomial, Utilitas Mathematica 24 (1983), 97-106], where α = α (G) is the size of a maximum independent set. In this paper we derive closed formulas for the independence polynomials of antiregular graphs. It results in proving that every antiregular graph is uniquely defined by its independence polynomial within the family of threshold graphs. Moreover, the independence polynomial of each antiregular graph is log-concave, it has two real roots at most, and its value at -1 belongs to {-1, 0}.

Original languageEnglish
Pages (from-to)279-288
Number of pages10
JournalCarpathian Journal of Mathematics
Volume28
Issue number2
StatePublished - 2012
Externally publishedYes

Keywords

  • Antiregular graph
  • Independence polynomial
  • Independent set
  • Threshold graph

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