Disorder-order transitions in diluted and nondiluted direct transmission lines with asymmetric dichotomous noise

E. Lazo; F. R. Humire; E. Saavedra

doi:10.1142/S0129183114500235

Disorder-order transitions in diluted and nondiluted direct transmission lines with asymmetric dichotomous noise

E. Lazo
, F. R. Humire
, E. Saavedra

Departamento de Física

Universidad de Tarapacá

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

10 Citas (Scopus)

Resumen

In this work we study the localization properties of diluted and nondiluted disordered direct transmission lines (TLs), when we distribute two values of inductances, L_A and L_B, according to an asymmetric dichotomous sequence. Using the scaling properties of the participation number D we study the localization properties in the thermodynamic limit. For certain τ and β parameter specific values, which characterize the dichotomous noise, we have found the following limit conditions: lim _β→∞m(ω,τ,β) → 1.0 or lim _τ→∞m(ω,τ,β) → 1.0, for the appearing of the disorder-order transitions. Here m(ω,τ,β) are the slopes of the linear relationships between ln(D) and ln(N). In addition, in each ω_c resonance frequency generated by the dilution process we demonstrate the existence of extended intermediate states in the thermodynamic limit.

Idioma original	Inglés
Número de artículo	1450023
Publicación	International Journal of Modern Physics C
Volumen	25
N.º	7
DOI	https://doi.org/10.1142/S0129183114500235
Estado	Publicada - jul. 2014

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title = "Disorder-order transitions in diluted and nondiluted direct transmission lines with asymmetric dichotomous noise",

abstract = "In this work we study the localization properties of diluted and nondiluted disordered direct transmission lines (TLs), when we distribute two values of inductances, LA and LB, according to an asymmetric dichotomous sequence. Using the scaling properties of the participation number D we study the localization properties in the thermodynamic limit. For certain τ and β parameter specific values, which characterize the dichotomous noise, we have found the following limit conditions: lim β→∞m(ω,τ,β) → 1.0 or lim τ→∞m(ω,τ,β) → 1.0, for the appearing of the disorder-order transitions. Here m(ω,τ,β) are the slopes of the linear relationships between ln(D) and ln(N). In addition, in each ωc resonance frequency generated by the dilution process we demonstrate the existence of extended intermediate states in the thermodynamic limit.",

keywords = "Asymmetric dichotomous noise, Diluted systems, Disorder-order transitions, Disordered transmission lines",

author = "E. Lazo and Humire, \{F. R.\} and E. Saavedra",

year = "2014",

month = jul,

doi = "10.1142/S0129183114500235",

language = "English",

volume = "25",

journal = "International Journal of Modern Physics C",

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T1 - Disorder-order transitions in diluted and nondiluted direct transmission lines with asymmetric dichotomous noise

AU - Lazo, E.

AU - Humire, F. R.

AU - Saavedra, E.

PY - 2014/7

Y1 - 2014/7

N2 - In this work we study the localization properties of diluted and nondiluted disordered direct transmission lines (TLs), when we distribute two values of inductances, LA and LB, according to an asymmetric dichotomous sequence. Using the scaling properties of the participation number D we study the localization properties in the thermodynamic limit. For certain τ and β parameter specific values, which characterize the dichotomous noise, we have found the following limit conditions: lim β→∞m(ω,τ,β) → 1.0 or lim τ→∞m(ω,τ,β) → 1.0, for the appearing of the disorder-order transitions. Here m(ω,τ,β) are the slopes of the linear relationships between ln(D) and ln(N). In addition, in each ωc resonance frequency generated by the dilution process we demonstrate the existence of extended intermediate states in the thermodynamic limit.

AB - In this work we study the localization properties of diluted and nondiluted disordered direct transmission lines (TLs), when we distribute two values of inductances, LA and LB, according to an asymmetric dichotomous sequence. Using the scaling properties of the participation number D we study the localization properties in the thermodynamic limit. For certain τ and β parameter specific values, which characterize the dichotomous noise, we have found the following limit conditions: lim β→∞m(ω,τ,β) → 1.0 or lim τ→∞m(ω,τ,β) → 1.0, for the appearing of the disorder-order transitions. Here m(ω,τ,β) are the slopes of the linear relationships between ln(D) and ln(N). In addition, in each ωc resonance frequency generated by the dilution process we demonstrate the existence of extended intermediate states in the thermodynamic limit.

KW - Asymmetric dichotomous noise

KW - Diluted systems

KW - Disorder-order transitions

KW - Disordered transmission lines

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U2 - 10.1142/S0129183114500235

DO - 10.1142/S0129183114500235

M3 - Article

AN - SCOPUS:84901618720

SN - 0129-1831

VL - 25

JO - International Journal of Modern Physics C

JF - International Journal of Modern Physics C

IS - 7

M1 - 1450023

ER -

Disorder-order transitions in diluted and nondiluted direct transmission lines with asymmetric dichotomous noise

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