Doctoral Thesis
DOI
https://doi.org/10.11606/T.43.2007.tde-29022008-115433
Document
Author
Full name
Roberto Venegeroles Nascimento
E-mail
Institute/School/College
Knowledge Area
Date of Defense
Published
São Paulo, 2007
Supervisor
Committee
Hussein, Mahir Saleh (President)
Aguiar, Marcus Aloizio Martinez de
Ragazzo, Clodoaldo Grotta
Schor, Ricardo Schwartz
Wreszinski, Walter Felipe
Aguiar, Marcus Aloizio Martinez de
Ragazzo, Clodoaldo Grotta
Schor, Ricardo Schwartz
Wreszinski, Walter Felipe
Title in Portuguese
Teoria cinética de mapas hamiltonianos
Keywords in Portuguese
Caos
Difusão
Sistemas dinâmicos
Teoria cinética
Difusão
Sistemas dinâmicos
Teoria cinética
Abstract in Portuguese
Este trabalho consiste do estudo das propriedades de transporte de sistemas dinâmicos caóticos por meio do uso de técnicas de operadores de projeção. Tais sistemas podem exibir difusão determinística e relaxação para o equilíbrio. Mostramos que esse comportamento difusivo pode ser visto como uma propriedade espectral do operador de Perron-Frobenius associado. Em particular, a ressonância dominante de Policott-Ruelle é calculada analiticamente para uma classe geral de mapas que preservam área. Sua dependência do número de onda determina os coeficientes de transporte normais. Calculamos uma fórmula geral exata para o coeficiente de difusão, obtida sem qualquer aproximação de alta estocasticidade, e um novo efeito emergiu: a evolução angular pode induzir modos rápidos ou lentos de difusão mesmo no regime de alta estocasticidade. Os aspectos não-Gaussianos do transporte caótico são também investigados para esses sistemas. O estudo é realizado por meio de uma relação entre a curtose, o coeficiente de difusão e o coeficiente de Burnett de quarta ordem, os quais são calculados analiticamente. Uma escala de tempo característica que delimita os regimes Gaussiano e Markoviano para a função densidade foi estabelecida. À parte os modos acelerados, cujas propriedades cinéticas são anômalas, todo os resultados estão em excelente acordo com as simulações numéricas
Title in English
Kinetic theory of Hamiltonian maps
Keywords in English
Chaos dynamical systems
Diffusion
Dynamical systems
Kinetic theory
Diffusion
Dynamical systems
Kinetic theory
Abstract in English
This work consists in the study of the transport properties of chaotic Hamiltonian systems by using projection operator techniques. Such systems can exhibit deterministic diffusion and display an approach to equilibrium. We show that this diffusive behavior can be viewd as a spectral property of the associated Perron-Frobenius operator. In particular, the leading Pollicott-Ruelle resonance is calculated analytically for a general class of two-dimensional area-preserving maps. Its wavenumber dependence determines the normal transport coefficients. We calculate a general exact formula for the diffusion coefficient, derived without any high stochasticity approximation and a new effect emerges: the angular evolution can induce fast or slow modes of diffusion even in the high stochasticity regime. The non-Gaussian aspects of the chaotic transport are also investigated for this systems. This study is done by means of a relationship between kurtosis and diffusion coefficient and fourth order Burnett coefficient, which are calculated analytically. A characteristic time scale which delimits the Markovian and Gaussian regimes for the density function was established. Despite the accelerator modes, whose kinetics properties are anomalous, all theoretical results are in excellent agreement with the numerical simulations
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Publishing Date
2008-03-24
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Digital Library of Theses and Dissertations of USP. Copyright © 2001-2024. All rights reserved.