Noninteracting excitations on a generic discrete structure are described by means of a single-band tight-binding Hamiltonian. Despite the simplicity of the model, topological inhomogeneity gives rise to nontrivial spectral features. At the same time the lack of regularities makes the spectral analysis a rather hard task, since powerful tools such as Fourier transform are ruled out, In this paper we introduce a rigorous analytical technique, based on topological methods, for the exact solution of this problem in the case of branched structures. We provide some examples illustrating the technique.
Topological reduction of tight-binding models on branched networks
Buonsante P;
2002
Abstract
Noninteracting excitations on a generic discrete structure are described by means of a single-band tight-binding Hamiltonian. Despite the simplicity of the model, topological inhomogeneity gives rise to nontrivial spectral features. At the same time the lack of regularities makes the spectral analysis a rather hard task, since powerful tools such as Fourier transform are ruled out, In this paper we introduce a rigorous analytical technique, based on topological methods, for the exact solution of this problem in the case of branched structures. We provide some examples illustrating the technique.File in questo prodotto:
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