Includes bibliographical references (pages 200-211) and index.
Contents:
1. Global Attraction to Stationary States -- 2. Global Attraction to Solitons -- 3. Global Attraction to Stationary Orbits -- 4. Asymptotic Stability of Stationary Orbits and Solitons -- 5. Adiabatic Effective Dynamics of Solitons -- 6. Numerical Simulation of Solitons -- 7. Dispersive Decay -- 8. Attractors and Quantum Mechanics.
Summary:
"This monograph is the first to present the theory of global attractors of Hamiltonian nonlinear partial differential equations. A particular focus is placed on the results obtained in the last three decades, with chapters on the global attraction to stationary states, to solitons, and to stationary orbits. The text includes many physically relevant examples and will be of interest to graduate students and researchers in both mathematics and physics. The proofs involve novel applications of methods of harmonic analysis, including Tauberian theorems, Titchmarsh's convolution theorem, and the theory of quasimeasures. As well as the underlying theory, the authors discuss the results of numerical simulations and formulate open problems to prompt further research."--Provided by publisher.
This resource is supported by the Institute of Museum and Library Services under the provisions of the Library Services and Technology Act as administered by State Library of Iowa.