On distance and Laplacian matrices of trees with matrix weights

Abstract

The distance matrix of a simple connected graph G is D(G)=(dij), where dij is the distance between the vertices i and j in G. We consider a weighted tree T on n vertices with edge weights are square matrix of same size. The distance dij between the vertices i and j is the sum of the weight matrices of the edges in the unique path from i to j. In this article we establish a characterization for the trees in terms of rank of (matrix) weighted Laplacian matrix associated with it. Then we establish a necessary and sufficient condition for the distance matrix D, with matrix weights, to be invertible and the formula for the inverse of D, if it exists. Also we study some of the properties of the distance matrices of matrix weighted trees in connection with the Laplacian matrices, g-inverses and eigenvalues.