How the site degree influences quantum probability on inhomogeneous substrates

We investigate the effect of the node degree and energy E on the electronic wave function for regular and irregular structures, namely, regular lattices, disordered percolation clusters, and complex networks. We evaluate the dependency of the quantum probability for each site on its degree. For a class of biregular structures formed by two disjoint subsets of sites sharing the same degree, the probability Pk(E) of finding the electron on any site with k neighbors is independent of E?0, a consequence of an exact analytical result that we prove for any bipartite lattice. For more general nonbipartite structures, Pk(E) may depend on E as illustrated by an exact evaluation of a one-dimensional semiregular lattice: Pk(E) is large for small values of E when k is also small, and its maximum values shift towards large values of |E| with increasing k. Numerical evaluations of Pk(E) for two different types of percolation clusters and the Apollonian network suggest that this observed feature might be generally valid.