Book contents
- Frontmatter
- Contents
- Preface
- 1 Introduction
- 2 Inverse Scattering for the Korteweg-de Vries Equation
- 3 General Inverse Scattering in One Dimension
- 4 Inverse Scattering for Integro-Differential Equations
- 5 Inverse Scattering in Two Dimensions
- 6 Inverse Scattering in Multidimensions
- 7 The Painlevé Equations
- 8 Further Remarks and Open Problems
- Appendix A Remarks on Riemann-Hilbert problems
- Appendix B Remarks on ∂ problems
- References
- Subject Index
Preface
Published online by Cambridge University Press: 04 February 2010
- Frontmatter
- Contents
- Preface
- 1 Introduction
- 2 Inverse Scattering for the Korteweg-de Vries Equation
- 3 General Inverse Scattering in One Dimension
- 4 Inverse Scattering for Integro-Differential Equations
- 5 Inverse Scattering in Two Dimensions
- 6 Inverse Scattering in Multidimensions
- 7 The Painlevé Equations
- 8 Further Remarks and Open Problems
- Appendix A Remarks on Riemann-Hilbert problems
- Appendix B Remarks on ∂ problems
- References
- Subject Index
Summary
An exciting and extremely active area of research investigation during the past twenty years has been the study of Solitons and the related issue of the construction of solutions to a wide class of nonlinear equations. Indeed there have been a few books written which serve to review aspect of this burgeoning field. A book coauthored by one of us (MJA) exactly ten years ago, discussed many of the relevant viewpoints as well as a variety of applications. Certain important and novel subareas of research such as the the application of the Inverse Scattering Transform (I.S.T.) to solve nonlinear wave equations on the infinite interval, in one spatial and one temporal dimension (1 + 1), were described in detail. At that time the complete inverse scattering methodology had been carried out primarily for those nonlinear equations related to second order scattering problems. Although it was known that certain nonlinear evolution equations in one and two spatial dimensions were related to suitable (higher order and two dimensional) linear scattering problems, and special techniques were available, nevertheless it was not yet clear that a unified and effective procedure could be applied to all of these nonlinear equations. The main purpose of this book is the description of how the I.S.T. technique can be applied to these situations.
Our presentation begins with a “state of the art” introduction. Here we list as many integrable systems and relevant scattering problems that we are familiar with — though it is still possible that we have missed some interesting ones.
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- Publisher: Cambridge University PressPrint publication year: 1991