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Multiphase Averaging for Classical Systems : With Applications to Adiabatic Theorems
Overview of attention for book
Table of Contents
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Book Overview
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Chapter 1
Introduction and Notation
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Chapter 2
Ergodicity
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Chapter 3
One Frequency Systems and First Result for Two Frequency Systems
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Chapter 4
Two Frequency Systems; Neistadt’s Results
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Chapter 5
N Frequency Systems; Neistadt’s Result Based on Anosov’s Method
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Chapter 6
N Frequency Systems; Neistadt’s Results Based on Kasuga’s Method
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Chapter 7
Hamiltonian Systems
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Chapter 8
Adiabatic Theorems in One Dimension
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Chapter 9
The Classical Adiabatic Theorems in Many Dimensions
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Chapter 10
The Quantum Adiabatic Theorem
Overall attention for this book and its chapters
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Mentioned by
syllabi
1
institution with syllabi
Readers on
mendeley
9
Mendeley
Book overview
1. Introduction and Notation
2. Ergodicity
3. One Frequency Systems and First Result for Two Frequency Systems
4. Two Frequency Systems; Neistadt’s Results
5. N Frequency Systems; Neistadt’s Result Based on Anosov’s Method
6. N Frequency Systems; Neistadt’s Results Based on Kasuga’s Method
7. Hamiltonian Systems
8. Adiabatic Theorems in One Dimension
9. The Classical Adiabatic Theorems in Many Dimensions
10. The Quantum Adiabatic Theorem
Summary
Syllabi
This data is correct as of December 2015 - for more up to date information, please visit
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Area and Ethnic Studies