Independence polynomials of graphs
Abstract
In this paper, we study the independence polynomial of a finite simple graph , with emphasis on the evaluation at , symmetry, and its connection with the -polynomial of the edge ideal of . For big star graphs, we determine exactly when is , or , characterize the pseudo-Gorenstein members, and show that there is a unique big star with symmetric independence polynomial. We also study graphs obtained from a graph by attaching leaves to selected vertices. We derive an explicit formula for the resulting independence polynomial, determine the corresponding value at , and prove that if every vertex of receives at least one leaf, then the independence polynomial is symmetric if and only if each vertex receives exactly two leaves. As an application, we obtain exact criteria for the values of and for the pseudo-Gorenstein members of caterpillar graphs. For cochordal graphs, we classify all symmetric independence polynomials. Finally, for connected graphs on vertices with small independence numbers, we determine the exact range of possible values of .
Cite
@article{arxiv.2603.16695,
title = {Independence polynomials of graphs},
author = {Takayuki Hibi and Selvi Kara and Dalena Vien},
journal= {arXiv preprint arXiv:2603.16695},
year = {2026}
}
Comments
23 pages