On the spectral radius and the energy of eccentricity matrix of a graph

Abstract

The eccentricity matrix (G) of a graph G is obtained from the distance matrix by retaining the eccentricities (the largest distance) in each row and each column. In this paper, we give a characterization of the star graph, among the trees, in terms of invertibility of the associated eccentricity matrix. The largest eigenvalue of (G) is called the -spectral radius, and the eccentricity energy (or the -energy) of G is the sum of the absolute values of the eigenvalues of (G). We establish some bounds for the -spectral radius and characterize the extreme graphs. Two graphs are said to be -equienergetic if they have the same -energy. For any n ≥ 5, we construct a pair of -equienergetic graphs on n vertices, which are not -cospectral.