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Espejo, D., (2023). Dynamics in Celestial Mechanics. The Curved N-Body and Full Gravitational 2-Body Problems [Tesis, Universidad del Bío-Bío]. https://renati.sunedu.gob.pe/handle/sunedu/3431108
Espejo, D., Dynamics in Celestial Mechanics. The Curved N-Body and Full Gravitational 2-Body Problems [Tesis]. CL: Universidad del Bío-Bío; 2023. https://renati.sunedu.gob.pe/handle/sunedu/3431108
@phdthesis{renati/6868,
title = "Dynamics in Celestial Mechanics. The Curved N-Body and Full Gravitational 2-Body Problems",
author = "Espejo Rimapa, Dílver Elías",
publisher = "Universidad del Bío-Bío",
year = "2023"
}
Title: Dynamics in Celestial Mechanics. The Curved N-Body and Full Gravitational 2-Body Problems
Other Titles: Dinámica en mecánica celeste. Los problemas curvado de N-cuerpos y gravitacional completo de 2-cuerpos
Authors(s): Espejo Rimapa, Dílver Elías
Advisor(s): Andrade Bustos, Jaime Eduardo; Crespo Cutillas, Francisco
Keywords: Superficies de curvatura constante; Sistemas hamiltonianos; Estabilidad no lineal; Ecuaciones diferenciales no lineales; Órbitas periódicas; Reducción por invariantes; Teoría de bifurcación; Teorema de Kolmogórov-Arnold-Moser
OCDE field: https://purl.org/pe-repo/ocde/ford#1.01.02
Issue Date: 2023
Institution: Universidad del Bío-Bío
Abstract: En esta tesis se usaron métodos analíticos y geométricos para estudiar sistemas Hamiltonianos. La
motivación surge del campo de la mecánica celeste. La primera parte de nuestra investigación
estudia algunas propiedades dinámicas del problema curvado de N-cuerpos en espacios de curvatura
constante desde una perspectiva geométrica tanto intrínseca como extrínseca. Este trabajo incluye un
análisis de estabilidad lineal y no lineal de soluciones de equilibrio, existencia de soluciones
periódicas, análisis de bifurcaciones, continuación de soluciones periódicas y existencia de toros
KAM. La segunda parte del trabajo se centra en el estudio del problema gravitacional completo de
2-cuerpos. Presentamos una descripción geométrica de las simetrías y la reducción de este problema
después de promediar sobre ángulos rápidos. Evitamos las singularidades introduciendo variables
adecuadas y realizando una transformación simpléctica, lo que conduce a una triple carta
cuaterniónica global. La elección de esta clase de variables vale la pena, ya que nos permite escribir
rápidamente el Hamiltoniano del sistema en términos de los invariantes y la estructura Poisson en
cada etapa del proceso de reducción. Nuestro trabajo incluye un análisis paramétrico de equilibrios
relativos y una descripción completa de las fibras en la reconstrucción del sistema reducido.
In this thesis, analytical and geometric methods were used to study Hamiltonian systems. The motivation arises from the field of celestial mechanics. The first part of our research studies some dynamic properties of the curved N-field problem in spaces of constant curvature from both an intrinsic and extrinsic geometric perspective. This work includes an analysis of linear and nonlinear stability of equilibrium solutions, existence of periodic solutions, analysis of bifurcations, continuation of periodic solutions, and existence of KAM tori. The second part of the work focuses on the study of the complete 2-body gravitational problem. We present a geometric description of symmetries and the reduction of this problem after averaging over fast angles. We avoid singularities by introducing suitable variables and performing a symplectic transformation, which leads to a global quaternionic triple letter. The choice of this class of variables is worthwhile, since it allows us to quickly write the Hamiltonian of the system in terms of the invariants and the Poisson structure at each stage of the reduction process. Our work includes a parametric analysis of relative equilibria and a complete description of the fibers in the reduced system reconstruction.
In this thesis, analytical and geometric methods were used to study Hamiltonian systems. The motivation arises from the field of celestial mechanics. The first part of our research studies some dynamic properties of the curved N-field problem in spaces of constant curvature from both an intrinsic and extrinsic geometric perspective. This work includes an analysis of linear and nonlinear stability of equilibrium solutions, existence of periodic solutions, analysis of bifurcations, continuation of periodic solutions, and existence of KAM tori. The second part of the work focuses on the study of the complete 2-body gravitational problem. We present a geometric description of symmetries and the reduction of this problem after averaging over fast angles. We avoid singularities by introducing suitable variables and performing a symplectic transformation, which leads to a global quaternionic triple letter. The choice of this class of variables is worthwhile, since it allows us to quickly write the Hamiltonian of the system in terms of the invariants and the Poisson structure at each stage of the reduction process. Our work includes a parametric analysis of relative equilibria and a complete description of the fibers in the reduced system reconstruction.
Link to repository: https://renati.sunedu.gob.pe/handle/sunedu/3431108
Note: Acceso restringido. Si desea contactar con el autor, escriba a renati@sunedu.gob.pe para derivar su consulta.
Discipline: Matemática Aplicada
Grade or title grantor: Universidad del Bío-Bío. Facultad de Ciencias. Departamento de Ciencias Básicas. Departamento de Matemática
Grade or title: Doctor en Matemática Aplicada
Juror: Vidal Díaz, Claudio; Pérez-Chavela, Ernesto; Vidarte Olivera, Jhon
Register date: 19-Jul-2023
Files in This Item:
File | Description | Size | Format | |
---|---|---|---|---|
EspejoRimapaDE.pdf Restricted Access | Tesis (restringida) | 4.66 MB | Adobe PDF | View/Open Request a copy |
Autorizacion.pdf Restricted Access | Autorización del registro | 250.54 kB | Adobe PDF | View/Open Request a copy |
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