New frontiers of celestial mechanics : theory and applicaitons : I-CELMECH Training School, Milan, Italy, February 3-7 2020 / Giulio Baù, Sara Di Ruzza, Rocío Isabel Páez, Tiziano Penati, Marco Sansottera, editors.
I-CELMECH Training School (2020 : Milan, Italy); Baù, Giulio, editor.; Di Ruzza, Sara, editor.; Páez, Rocío Isabel, editor.; Penati, Tiziano, editor.; Sansottera, Marco, editor.
2022
QB349 .I24 2020
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Title New frontiers of celestial mechanics : theory and applicaitons : I-CELMECH Training School, Milan, Italy, February 3-7 2020 / Giulio Baù, Sara Di Ruzza, Rocío Isabel Páez, Tiziano Penati, Marco Sansottera, editors.
Meeting Name I-CELMECH Training School (2020 : Milan, Italy)
ISBN 9783031131158 electronic book
3031131150 electronic book
3031131142
9783031131141
DOI https://doi.org/10.1007/978-3-031-13115-8
Published Cham : Springer, [2022]
Language English
Description 1 online resource (306 p.).
Other Standard Identifiers 10.1007/978-3-031-13115-8 doi
Call Number QB349 .I24 2020
Dewey Decimal Classification 521
Summary This volume contains the detailed text of the major lectures delivered during the I-CELMECH Training School 2020 held in Milan (Italy). The school aimed to present a contemporary review of recent results in the field of celestial mechanics, with special emphasis on theoretical aspects. The stability of the Solar System, the rotations of celestial bodies and orbit determination, as well as the novel scientific needs raised by the discovery of exoplanetary systems, the management of the space debris problem and the modern space mission design are some of the fundamental problems in the modern developments of celestial mechanics. This book covers different topics, such as Hamiltonian normal forms, the three-body problem, the Euler (or two-centre) problem, conservative and dissipative standard maps and spin-orbit problems, rotational dynamics of extended bodies, Arnold diffusion, orbit determination, space debris, Fast Lyapunov Indicators (FLI), transit orbits and answer to a crucial question, how did Kepler discover his celebrated laws? Thus, the book is a valuable resource for graduate students and researchers in the field of celestial mechanics and aerospace engineering.
Note 5 Lagrangian of a Rigid Body Interacting with a Point Mass
Bibliography, etc. Note Includes bibliographical references.
Access Note Access limited to authorized users.
Source of Description Description based on online resource; title from digital title page (viewed on March 20, 2023).
Added Author Baù, Giulio, editor.
Di Ruzza, Sara, editor.
Páez, Rocío Isabel, editor.
Penati, Tiziano, editor.
Sansottera, Marco, editor.
Series Springer proceedings in mathematics & statistics ; v. 399.
Available in Other Form New Frontiers of Celestial Mechanics: Theory and Applications
Linked Resources Online Access
Record Appears in Online Resources > Ebooks
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Intro
Preface
Contents
About the Editors
Invariant KAM Tori: From Theory to Applications to Exoplanetary Systems
1 Introduction
2 Basics of KAM Theory
2.1 Near to the Identity Canonical Transformations by Lie Series
2.2 Statement(s) of KAM Theorem
2.3 Algorithmic Construction of the Kolmogorov Normal Form
2.4 On the Convergence of the Algorithm Constructing the Kolmogorov Normal Form
3 Construction of Invariant Elliptic Tori by a Normal Form Algorithm
3.1 Algorithmic Construction of the Normal Form for Elliptic Tori

3.2 On the Convergence of the Algorithm Constructing the Normal Form for Elliptic Tori
4 Construction of Invariant KAM Tori in Exoplanetary Systems with Rather Eccentric Orbits
4.1 Secular Model at Order Two in the Masses
4.2 Semi-analytic Computations of Invariant Tori
References
A New Analysis of the Three-Body Problem
1 Overview
2 Euler Problem Revisited
3 Perihelion Librations in the Three-Body Problem
4 Chaos in a Binary Asteroid System
References
KAM Theory for Some Dissipative Systems
1 Introduction

1.1 Consequences of the A-Posteriori Method for Conformally Symplectic Systems
1.2 Organization of the Paper
2 Conservative/Dissipative Standard Maps and Spin-Orbit Problems
2.1 The Conservative Standard Map
2.2 The Dissipative Standard Map
2.3 The Spin-Orbit Problems
3 Conformally Symplectic Systems and Diophantine Vectors
3.1 Discrete and Continuous Conformally Symplectic Systems
3.2 Diophantine Vectors for Maps and Flows
4 Invariant Tori and KAM Theory for Conformally Symplectic Systems
4.1 Invariant KAM Tori
4.2 Conformally Symplectic KAM Theorem

4.3 A Sketch of the Proof of the KAM Theorem
5 Breakdown of Quasi-periodic Tori and Quasi-periodic Attractors
5.1 Sobolev Breakdown Criterion
5.2 Greene's Method, Periodic Orbits and Arnold's Tongues
6 Collision of Invariant Bundles of Quasi-periodic Attractors
7 Applications
7.1 Applications to the Standard Maps
7.2 Applications to the Spin-Orbit Problems
References
Tidal Effects and Rotation of Extended Bodies
1 Introduction
2 Coordinate System
2.1 The 3-1-3 Euler Angles
2.2 Unitary Quaternion
2.3 Special Case: Axisymmetric Body

3 Generalised Velocity and Kinematic Equation
3.1 Kinematic Equation Satisfied by the Rotation Matrix
3.2 Kinematic Equation Satisfied by the 3-1-3 Euler Angles
3.3 Kinematic Equation Satisfied by Unitary Quaternions
3.4 Kinematic Equation Satisfied by a Unit Vector of the Figure Axis
4 Least Action Principle and Dynamical Equations
4.1 Parametrisation of the Tangent Space
4.2 Variation of the Action
4.3 Dynamical Equations
4.4 Rayleigh Dissipation Function
4.5 Spin Operator
4.6 Hamiltonian Formalism
4.7 Example: The Gyroscope

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