How the site degree influences quantum probability on inhomogeneous substrates

Abstract: 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 dependence of the quantum probability for each site on its degree. For bi-regular structures, we prove analytically that the probability P k (E) of finding the particle on any site with k neighbors is independent of E. For more general structures, the dependency of P k (E) on E is discusse… Show more

“…We observe that p hub converges to 1/4 (1/2) as N grows on the 0-AsN (1-AsN). In [17] it was analytically proved that for any bipartite lattice i∈Sj p i is independent of λ. Here, both subnetworks fulfill i∈S1 p i = i∈S2 p i = 1/2 and therefore, for large N , the eigenvector tends to become fully localized at the hub.…”

Binary Apollonian networks

“…We observe that p hub converges to 1/4 (1/2) as N grows on the 0-AsN (1-AsN). In [17] it was analytically proved that for any bipartite lattice i∈Sj p i is independent of λ. Here, both subnetworks fulfill i∈S1 p i = i∈S2 p i = 1/2 and therefore, for large N , the eigenvector tends to become fully localized at the hub.…”

Binary Apollonian networks

Generalized time-dependent Schrödinger equation in two dimensions under constraints

Flat-band quantum communication induced by disorder