arXiv:1207.3122 Abstract | arXiv Analytics

arXiv:1207.3122 [math.CO]Abstract References Reviews Resources

The Square of Adjacency Matrices

Published 2012-07-12Version 1

It can be shown that any symmetric $(0,1)$-matrix $A$ with $\tr A = 0$ can be interpreted as the adjacency matrix of a simple, finite graph. The square of an adjacency matrix $A^2=(s_{ij})$ has the property that $s_{ij}$ represents the number of walks of length two from vertex $i$ to vertex $j$. With this information, the motivating question behind this paper was to determine what conditions on a matrix $S$ are needed to have $S=A(G)^2$ for some graph $G$. Structural results imposed by the matrix $S$ include detecting bipartiteness or connectedness and counting four cycles. Row and column sums are examined as well as the problem of multiple nonisomorphic graphs with the same adjacency matrix squared.

Categories: math.CO

Keywords: adjacency matrices, multiple nonisomorphic graphs, structural results, column sums, finite graph

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