Description
Book SynopsisPresents an account of two pillars of the techniques of nonlinear dynamics and chaos theory: stable and chaotic behavior. This title discusses cases in which N-body motions are stable, covering topics such as Hamiltonian systems, the (Moser) twist theorem, and aspects of Kolmogorov-Arnold-Moser theory.
Table of ContentsForeward ix I. INTRODUCTION 3 1. The stability problem 3 2. Historical comments 3 3. Other problems 8 4. Unstable and statistical behavior 14 5. Plan 18 II. STABILITY PROBLEM 21 1. A model problem in the complex 21 2. Normal forms for Hamiltonian and reversible systems 30 3. Invariant manifolds 38 4. Twist theorem 50 III. STATISTICAL BEHAVIOR 61 1. Bernoulli shift. Example 61 2. Shift as a topological mapping 66 3. Shift as a subsystem 68 4. Alternate conditions for C'-mappings 76 5. The restricted three-body problem 83 6. Homoclinic points 99 IV. FINAL REMARKS 113 V. EXISTENCE PROOF IN THE PRESENCE OF SMALL DIVISORS 113 1. Reformulation of Theorem 2.9 113 2. Construction of the root of a function 120 3. Proof of Theorem 5.1 127 4. Generalities 138 A. Appendix to Chapter V 149 a. Rate of convergence for scheme of s.2b) 149 b. The improved scheme by Hald 151 VI. PROOFS AND DETAILS FOR CHAPTER III 153 1. Outline 153 2. Behavior near infinity 154 3. Proof of Lemmas 1 and 2 of Chapter III 160 4. Proof of Lemma 3 of Chapter III 163 5. Proof of Lemma 4 of Chapter III 167 6. Proof of Lemma 5 of Chapter III 171 7. Proof of Theorem 3.7, concerning homoclinic points 181 8. Nonexistence of intergals 188 BOOKS AND SURVEY ARTICLES 191
