Repeller structure in a hierarchical model. 2. Metric properties

Year: 1991

Authors: Livi R., Politi A., Ruffo S.

Autors Affiliation: Dipartimento di Fisica, Universitą di Firenze, 50125 Firenze, Italy;
Istituto Nazionale di Ottica, Largo E. Fermi 6, 50125 Firenze, Italy;
Dipartimento di Chimica, Universitą della Basilicata, Potenza, Italy;
Istituto Nazionale di Fisica Nucleare, Sez. di Firenze, Italy

Abstract: We study the renormalization dynamics deriving from a hierarchical tight-binding Schrodinger equation. In the Part I of this work we analyzed the topological structure of the recurrent set-a chaotic repeller-and its relation with the spectral problem. In this part we turn our attention to the metric properties of the repeller. We first study periodic orbits and their bifurcation unfolding, and we organize them on a binary tree. We then apply a thermodynamic formalism which provides a complete characterization of the scaling properties of the energy spectrum. The distribution f (alpha) of local dimensions is determined by computing both a generalized zeta-function through the periodic orbits and the bandwidths of periodic approximants of the Schrodinger operator. When the growth rate R of the potential is smaller than 1, we find evidence of a phase transition, implying that two different classes of states coexist in the spectrum. The asymptotic behavior of the Lebesgue measure-mu of the spectrum is also studied. A linear scaling of mu to 0 is observed for R –> 1-, while for R > 1, the measure of the periodic approximants goes to 0 as R(-h) with the hierarchical order h. Finally, we show that the localized state, present for R < 1, is characterized by a superexponential scaling of the bandwidth. Journal/Review: JOURNAL OF STATISTICAL PHYSICS

Volume: 65 (1-2)      Pages from: 73  to: 95

KeyWords: HIERARCHICAL STRUCTURES; MULTIFRACTALITY; PHASE TRANSITIONS; STRANGE REPELLERS; LOCALIZATION
DOI: 10.1007/BF01329851

Citations: 4
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