The volume conjecture, the aj conjectures and skein modules

Tran, Anh Tuan

21 June 2012

This dissertation studies quantum invariants of knots and links, particularly the colored Jones polynomials, and their relationships with classical invariants like the hyperbolic volume and the A-polynomial. We consider the volume conjecture that relates the Kashaev invariant, a specialization of the colored Jones polynomial at a specific root of unity, and the hyperbolic volume of a link; and the AJ conjecture that relates the colored Jones polynomial and the A-polynomial of a knot. We establish the AJ conjecture for some big classes of two-bridge knots and pretzel knots, and confirm the volume conjecture for some cables of knots.

Volume conjecture

AJ conjecture

Skein module

Colored Jones polynomial

A-polynomial

Knot theory

Symmetry (Mathematics)

Invariants

Invariant manifolds

Hyperbolic spaces

Finding Order in Chaos: Resonant Orbits and Poincaré Sections

Maaninee Gupta (8770355)

01 May 2020

<div> <div> <div> <p>Resonant orbits in a multi-body environment have been investigated in the past to aid the understanding of perceived chaotic behavior in the solar system. The invariant manifolds associated with resonant orbits have also been recently incorporated into the design of trajectories requiring reduced maneuver costs. Poincaré sections are now also extensively utilized in the search for novel, maneuver-free trajectories in various systems. This investigation employs dynamical systems techniques in the computation and characterization of resonant orbits in the higher-fidelity Circular Restricted Three-Body model. Differential corrections and numerical methods are widely leveraged in this analysis in the determination of orbits corresponding to different resonance ratios. The versatility of resonant orbits in the design of low cost trajectories to support exploration for several planet-moon systems is demonstrated. The efficacy of the resonant orbits is illustrated via transfer trajectory design in the Earth-Moon, Saturn-Titan, and the Mars-Deimos systems. Lastly, Poincaré sections associated with different resonance ratios are incorporated into the search for natural, maneuver-free trajectories in the Saturn-Titan system. To that end, homoclinic and heteroclinic trajectories are constructed. Additionally, chains of periodic orbits that mimic the geometries for two different resonant ratios are examined, i.e., periodic orbits that cycle between different resonances are determined. The tools and techniques demonstrated in this investigation are useful for the design of trajectories in several different systems within the CR3BP. </p> </div> </div> </div>

Aerospace Engineering

resonant orbits

circular restricted three-body problem

poincaré maps

invariant manifolds

homoclinic connections

heteroclinic connections

Dynamics for a Random Differential Equation: Invariant Manifolds, Foliations, and Smooth Conjugacy Between Center Manifolds

Zhao, Junyilang

01 April 2018

In this dissertation, we first prove that for a random differential equation with the multiplicative driving noise constructed from a Q-Wiener process and the Wiener shift, which is an approximation to a stochastic evolution equation, there exists a unique solution that generates a local dynamical system. There also exist a local center, unstable, stable, centerunstable, center-stable manifold, and a local stable foliation, an unstable foliation on the center-unstable manifold, and a stable foliation on the center-stable manifold, the smoothness of which depend on the vector fields of the equation. In the second half of the dissertation, we show that any two arbitrary local center manifolds constructed as above are conjugate. We also show the same conjugacy result holds for a stochastic evolution equation with the multiplicative Stratonovich noise term as u â—¦ dW

Wiener process

Wong-Zakai approximations

Multiplicative noise

Random dynamical systems

Invariant manifolds

Foliations

Conjugacy

Mathematics

Physical Sciences and Mathematics

Problemas parabólicos em materiais compostos unidimensionais: propriedade de Morse Smale. / Parabolic problems in unidimensional composite materials: Morse-Smale property.

Carbone, Vera Lucia

07 March 2003

Neste trabalho estudamos problemas de reação difusão em domínios unidimensionais que surgem de materiais compostos e obtemos resultados comparando os fluxos do problema original e do problema limite quando a difusão fica muito grande em partes do domínio. Provamos que os autovalores e autofunções do operador linear ilimitado associado à equação limite têm a propriedade de Sturm Liouville e provamos que as soluções do problema de reação difusão têm a propriedade do decrescimento do número de zeros ao longo do tempo. Estes resultados são usados para provar que as variedades instável e estável de pontos de equilíbrios são genericamente transversais e que o fluxo no atrator para o problema de reação difusão é genericamente estruturalmente estável. Estes fatos permitem obter a equivalência topológica dos fluxos restritos aos atratores dos problemas original e seu problema limite. / In this work we study some reaction-difusion problems in one dimensional domains that arise from composite materials. We obtain some results comparing the flux of the original problem and the flux of the limit problem when the difusion becomes large on parts of the physical domain. We prove that the eigenvalues and eigenfunctions of the linear unbounded operator associated with the equation have the Sturm Liouville property and also that the solutions of the reaction difusion equation have the property that the zeros do not increase with time. These results are used to obtain that the stable and unstable manifolds of equilibrium points are generically transversal and that the flux on the attractor for the reaction difusion problem is generically structurally stable. Using this we are able to prove the topological equivalence of the fluxs restricted to the attractors of the original and the limit problem.

atratores e propriedade de Morse-Smale

attractors and Morse-Smale property

invariant manifolds

variedades invariantes

Longitudinal dynamics of semiconductor lasers

Sieber, Jan

23 July 2001

Die vorliegende Arbeit untersucht die longitudinale Dynamik von Halbleiterlasern anhand eines Modells, in dem ein lineares hyperbolisches System partieller Differentialgleichungen mit gewöhnlichen Differentialgleichungen gekoppelt ist. Zunächst wird mit Hilfe der Theorie stark stetiger Halbgruppen die globale Existenz und Eindeutigkeit von Lösungen für das konkrete System gezeigt. Die anschließende Untersuchung des Langzeitverhaltens der Lösungen erfolgt in zwei Schritten. Zuerst wird ausgenutzt, dass Ladungsträger und optisches Feld sich auf unterschiedlichen Zeitskalen bewegen, um mit singulärer Störungstheorie invariante attrahierende Mannigfaltigkeiten niedriger Dimension zu finden. Der Fluss auf diesen Mannigfaltigkeiten kann näherungsweise durch Moden-Approximationen beschrieben werden. Deren Dimension und konkrete Gestalt ist von der Lage des Spektrums des linearen hyperbolischen Operators abhängig. Die zwei häufigsten Situationen werden dann einer ausführlichen numerischen und analytischen Bifurkationsanalyse unterzogen. Ausgehend von bekannten Resultaten für die Ein-Moden-Approximation, wird die Zwei-Moden-Approximation in dem speziellen Fall untersucht, dass die Phasendifferenz zwischen den beiden optischen Komponenten sehr schnell rotiert, so dass sie sich in erster Ordnung herausmittelt. Mit dem vereinfachten Modell können die Mechanismen verschiedener Phänomene, die bei der numerischen Simulation des kompletten Modells beobachtet wurden, erklärt werden. Darüber hinaus lässt sich die Existenz eines anderen stabilen Regimes voraussagen, das sich im gemittelten Modell als "bursting" darstellt. / We investigate the longitudinal dynamics of semiconductor lasers using a model which couples a linear hyperbolic system of partial differential equations with ordinary differential equations. We prove the global existence and uniqueness of solutions using the theory of strongly continuous semigroups. Subsequently, we analyse the long-time behavior of the solutions in two steps. First, we find attracting invariant manifolds of low dimension benefitting from the fact that the system is singularly perturbed, i. e., the optical and the electronic variables operate on different time-scales. The flow on these manifolds can be approximated by the so-called mode approximations. The dimension of these mode approximations depends on the number of critical eigenvalues of the linear hyperbolic operator. Next, we perform a detailed numerical and analytic bifurcation analysis for the two most common constellations. Starting from known results for the single-mode approximation, we investigate the two-mode approximation in the special case of a rapidly rotating phase difference between the two optical components. In this case, the first-order averaged model unveils the mechanisms for various phenomena observed in simulations of the complete system. Moreover, it predicts the existence of a more complex spatio-temporal behavior. In the scope of the averaged model, this is a bursting regime.

Halbleiterlaser

unendlichdimensionale dynamische Systeme

invariante Mannigfaltigkeiten

Verzweigungsanalyse

semiconductor lasers

infinite-dimensional dynamical systems

invariant manifolds

Verzweigungsanalyse

510 Mathematik

27 Mathematik

UH 5616

ddc:510

Estudi i utilització de materials invariants en problemes de mecànica celeste

Masdemont Soler, Josep

09 October 1991

La memòria consta de dues parts. En la primera d'elles s'estudien les òrbites homoclíniques i heteroclíniques associades als punts d'equilibri triangulars del problema restringit circular i pla per valors del paràmetre de masses compresos entre 0.1 i 0.5, es donen resultats referents a la seva forma i nombre. En la segona part òrbita halo al voltant del punt l1 del sistema terra-sol, utilitzant les idees geomètriques que proporciona la teoria dels sistemes dinàmics. Es comença l'estudi per models senzills a fi de veure l'essencial de la geometria del problema i la influencia de la lluna, per finalitzar utilitzant el model de sistema solar real donat per les efemèrides del JPL.

invariant manifolds

òrbites de libració

transferències

transfer orbits

problema restringit

varietats invariants

restricted three roby problem

òrbites halo

halo orbits

libration point orbits

51

52

62

Hyperbolicity & Invariant Manifolds for Finite-Time Processes

Karrasch, Daniel

19 October 2012

The aim of this thesis is to introduce a general framework for what is informally referred to as finite-time dynamics. Within this framework, we study hyperbolicity of reference trajectories, existence of invariant manifolds as well as normal hyperbolicity of invariant manifolds called Lagrangian Coherent Structures. We focus on a simple derivation of analytical results. At the same time, our approach together with the analytical results has strong impact on the numerical implementation by providing calculable expressions for known functions and continuity results that ensure robust computation. The main results of the thesis are robustness of finite-time hyperbolicity in a very general setting, finite-time analogues to classical linearization theorems, an approach to the computation of so-called growth rates and the generalization of the variational approach to Lagrangian Coherent Structures.

Nichtautonome dynamische Systeme

finite-time Dynamik

Linearisierung

invariante Mannigfaltigkeiten

Nonautonomous dynamical systems

finite-time dynamics

linearization

invariant manifolds

ddc:510

rvk:SK 350

Problemas parabólicos em materiais compostos unidimensionais: propriedade de Morse Smale. / Parabolic problems in unidimensional composite materials: Morse-Smale property.

Vera Lucia Carbone

07 March 2003

Neste trabalho estudamos problemas de reação difusão em domínios unidimensionais que surgem de materiais compostos e obtemos resultados comparando os fluxos do problema original e do problema limite quando a difusão fica muito grande em partes do domínio. Provamos que os autovalores e autofunções do operador linear ilimitado associado à equação limite têm a propriedade de Sturm Liouville e provamos que as soluções do problema de reação difusão têm a propriedade do decrescimento do número de zeros ao longo do tempo. Estes resultados são usados para provar que as variedades instável e estável de pontos de equilíbrios são genericamente transversais e que o fluxo no atrator para o problema de reação difusão é genericamente estruturalmente estável. Estes fatos permitem obter a equivalência topológica dos fluxos restritos aos atratores dos problemas original e seu problema limite. / In this work we study some reaction-difusion problems in one dimensional domains that arise from composite materials. We obtain some results comparing the flux of the original problem and the flux of the limit problem when the difusion becomes large on parts of the physical domain. We prove that the eigenvalues and eigenfunctions of the linear unbounded operator associated with the equation have the Sturm Liouville property and also that the solutions of the reaction difusion equation have the property that the zeros do not increase with time. These results are used to obtain that the stable and unstable manifolds of equilibrium points are generically transversal and that the flux on the attractor for the reaction difusion problem is generically structurally stable. Using this we are able to prove the topological equivalence of the fluxs restricted to the attractors of the original and the limit problem.

atratores e propriedade de Morse-Smale

variedades invariantes

attractors and Morse-Smale property

invariant manifolds

Hyperbolicity & Invariant Manifolds for Finite-Time Processes

Karrasch, Daniel

27 September 2012

The aim of this thesis is to introduce a general framework for what is informally referred to as finite-time dynamics. Within this framework, we study hyperbolicity of reference trajectories, existence of invariant manifolds as well as normal hyperbolicity of invariant manifolds called Lagrangian Coherent Structures. We focus on a simple derivation of analytical results. At the same time, our approach together with the analytical results has strong impact on the numerical implementation by providing calculable expressions for known functions and continuity results that ensure robust computation. The main results of the thesis are robustness of finite-time hyperbolicity in a very general setting, finite-time analogues to classical linearization theorems, an approach to the computation of so-called growth rates and the generalization of the variational approach to Lagrangian Coherent Structures.

info:eu-repo/classification/ddc/510

ddc:510

Multi-Body Trajectory Design in the Earth-Moon Region Utilizing Poincare Maps

Paige Alana Whittington (12455871)

25 April 2022

<p>The 9:2 lunar synodic resonant near rectilinear halo orbit (NRHO) is the chosen orbit for the Gateway, a future lunar space station constructed by the National Aeronautics and Space Administration (NASA) as well as several commercial and international partners. Designing trajectories in this sensitive lunar region combined with the absence of a singular systematic methodology to approach mission design poses challenges as researchers attempt to design transfers to and from this nearly stable orbit. This investigation builds on previous research in Poincar\'e mapping strategies to design transfers from the 9:2 NRHO using higher-dimensional maps and maps with non-state variables. First, Poincar\'e maps are applied to planar transfers to demonstrate the utility of hyperplanes and establish that maps with only two or three dimensions are required in the planar problem. However, with the addition of two state variables, the spatial problem presents challenges in visualizing the full state. Higher-dimensional maps utilizing glyphs and color are employed for spatial transfer design involving the 9:2 NRHO. The visualization of all required dimensions on one plot accurately reveals low cost transfers into both a 3:2 planar resonant orbit and an L2 vertical orbit. Next, the application of higher-dimensional maps is extended beyond state variables. Visualizing time-of-flight on a map axis enables the selection of faster transfers. Additionally, glyphs and color depicting angular momentum rather than velocity lead to transfers with nearly tangential maneuvers. Theoretical minimum maneuvers occur at tangential intersections, so these transfers are low cost. Finally, a map displaying several initial and final orbit options, discerned through the inclusion of Jacobi constant on an axis, eliminates the need to recompute a map for each initial and final orbit pair. Thus, computation time is greatly reduced in addition to visualizing more of the design space in one plot. The higher-dimensional mapping strategies investigated are relevant for transfer design or other applications requiring the visualization of several dimensions simultaneously. Overall, this investigation outlines Poincar\'e mapping strategies for transfer scenarios of different design space dimensions and represents initial research into non-state variable mapping methods.</p>

Aerospace Engineering

astrodynamics

Poincare map

trajectory design

transfer

CR3BP

Circular Restricted Three-Body Problem

Invariant Manifolds

higher-dimensional maps

Jacobi constant