We study the relationship between the electronic spectrum structure and the
configurational order of one-dimensional quasiperiodic systems. We take the
Fibonacci case as an specific example, but the ideas outlined here may be
useful to accurately describe the energy spectra of general quasiperiodic
systems of technological interest. Our main result concerns the {\em
minimization} of the information entropy as a characteristic feature associated
to quasiperiodic arrangements. This feature is shown to be related to the
ability of quasiperiodic systems to encode more information, in the Shannon
sense, than periodic ones. In the conclusion we comment on interesting
implications of these results on further developments on the issue of
quasiperiodic order.Comment: REVTeX 3.0, 8 pages, 3 figures available on request from FD-A
  (fimat02@emducms1.sis.ucm.es), Phys Rev E submitted, MA/UC3M/02/9

A. Cordelli

Angel Sánchez

D. Tuet

E. Maciá

Enrique Maciá

F. Domínguez Adame

F. Laruelle

Francisco Domínguez-Adame

G. Y. Oh

J. M. Luck

J. Todd

K. Kono

L. S. Levitov

L. Y. He

M. Baake

M. Kohmoto

M. Nakayama

M. S. Robertson

P. Erdös

Q. Niu

R. Merlin

S. Douady

Y. Liu

English

arXiv

We study the relationship between the electronic spectrum structure and the configurational order of onedimensional
quasiperiodic systems. We take the Fibonacci case as a specific example, but the ideas outlined
here may be useful to accurately describe the energy spectra of general quasiperiodic systems of technological
interest. Our main result concerns the minimization of the information entropy as a characteristic feature
associated with quasiperiodic arrangements. This feature is shown to be related to the ability of quasiperiodic
systems to encode more information, in the Shannon sense, than periodic ones. In the conclusion we comment
on interesting implications of these results on further developments on the issue of quasiperiodic order.This work is partially supported by UCM under Project No. PR161/93-481l. A.S. is partially supported by DGICyT (Spain) through Project No. PB92-0248, and by the European Union Human Capital and Mobility Programme through Contract No. ERBCHRXCT930413Publicad

Maciá, Enrique

Domínguez-Adame, Francisco

Sánchez, Angel

Name not available

Energy spectra of quasi periodic systems via information entropy

e-Archivo (Univ. Carlos III de Madrid e-Archivo)

© 1994 The American Physical Society.
This work is partially supported by UCM under Project No. PR161/93-4811. A.S. is partially supported by DGICyT (Spain) through Project No. PB92-0248, and by the European Union Human Capital and Mobility Programme through Contract No. ERBCHRXCT930413. We thank M. V. Hernandez for a critical reading of the manuscript.We study the relationship between the electronic spectrum structure and the configurational order of one-dimensional quasiperiodic systems. We take the Fibonacci case as a specific example, but the ideas outlined here may be useful to accurately describe the energy spectra of general quasiperiodic systems of technological interest. Our main result concerns the minimization of the information entropy as a characteristic feature associated with quasiperiodic arrangements. This feature is shown to be related to the ability of quasiperiodic systems to encode more information, in the Shannon sense, than periodic ones. In the conclusion we comment on interesting implications of these results on further developments on the issue of quasiperiodic order.UCMDGICyT (Spain)European UnionDepto. de Física de MaterialesFac. de Ciencias FísicasTRUEpu

Energy spectra of quasiperiodic systems via information entropy

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