|Preface||Preview Material||Table of Contents||Supplementary Material|| || || |
Student Mathematical Library
2010; 304 pp; softcover
List Price: US$46
Member Price: US$36.80
Order Code: STML/54
An Introduction to the Mathematical Theory of Waves - Roger Knobel
Differential Equations, Mechanics, and Computation - Richard S Palais and Robert A Palais
Solitons are explicit solutions to nonlinear partial differential equations exhibiting particle-like behavior. This is quite surprising, both mathematically and physically. Waves with these properties were once believed to be impossible by leading mathematical physicists, yet they are now not only accepted as a theoretical possibility but are regularly observed in nature and form the basis of modern fiber-optic communication networks.
Glimpses of Soliton Theory addresses some of the hidden mathematical connections in soliton theory which have been revealed over the last half-century. It aims to convince the reader that, like the mirrors and hidden pockets used by magicians, the underlying algebro-geometric structure of soliton equations provides an elegant and surprisingly simple explanation of something seemingly miraculous.
Assuming only multivariable calculus and linear algebra as prerequisites, this book introduces the reader to the KdV Equation and its multisoliton solutions, elliptic curves and Weierstrass \(\wp\)-functions, the algebra of differential operators, Lax Pairs and their use in discovering other soliton equations, wedge products and decomposability, the KP Equation and Sato's theory relating the Bilinear KP Equation to the geometry of Grassmannians.
Notable features of the book include: careful selection of topics and detailed explanations to make this advanced subject accessible to any undergraduate math major, numerous worked examples and thought-provoking but not overly-difficult exercises, footnotes and lists of suggested readings to guide the interested reader to more information, and use of the software package Mathematica® to facilitate computation and to animate the solutions under study. This book provides the reader with a unique glimpse of the unity of mathematics and could form the basis for a self-study, one-semester special topics, or "capstone" course.
Undergraduate and graduate students interested in nonlinear PDEs; applications of algebraic geometry to differential equations.
"[T]his introduction to soliton theory is ideal for precisely the type of course for which it is intended - a .single semester special topics class' or a 'capstone experience . . . course.' . . . One of the delightful bonuses found in the text is the list of sources for additional reading found at the end of each chapter. In addition, the appendix, Ideas for Independent Projects,' provides both the student and the teacher many options for even more connections and/or more depth in numerous areas of study. Recommended."
-- J. T. Zerger, CHOICE
"The book is well written and contains numerous worked-out examples as well as many exercises and a guide to the literature for further reading. In particular, I feel that it serves its intended purpose quite well."
-- Gerald Teschl, Mathematical Reviews
AMS Home |
© Copyright 2014, American Mathematical Society