Book contents
- Frontmatter
- Contents
- Preface
- 1 Introduction
- 2 Metrics and frames
- 3 Computing with frames
- 4 Energy inequalities and frames
- 5 The good components
- 6 Pointwise estimates and commutations
- 7 Frames and curvature
- 8 Nonlinear equations, a priori estimates and induction
- 9 Applications to some quasilinear hyperbolic problems
- References
- Index
Preface
Published online by Cambridge University Press: 05 February 2012
- Frontmatter
- Contents
- Preface
- 1 Introduction
- 2 Metrics and frames
- 3 Computing with frames
- 4 Energy inequalities and frames
- 5 The good components
- 6 Pointwise estimates and commutations
- 7 Frames and curvature
- 8 Nonlinear equations, a priori estimates and induction
- 9 Applications to some quasilinear hyperbolic problems
- References
- Index
Summary
The field of nonlinear hyperbolic equations or systems has seen a tremendous development since the beginning of the 1980s. We are concentrating here on multidimensional situations, and on quasilinear equations or systems, that is, when the coefficients of the principal part depend on the unknown function itself. The pioneering works by F. John, D. Christodoulou, L. Hörmander, S. Klainerman, A. Majda and many others have been devoted mainly to the questions of blowup, lifespan, shocks, global existence, etc. Some overview of the classical results can be found in the books of Majda [42] and Hörmander [24]. On the other hand, Christodoulou and Klainerman [18] proved in around 1990 the stability of Minkowski space, a striking mathematical result about the Cauchy problem for the Einstein equations. After that, many works have dealt with diagonal systems of quasilinear wave equations, since this is what Einstein equations reduce to when written in the so-called harmonic coordinates. The main feature of this particular case is that the (scalar) principal part of the system is a wave operator associated to a unique Lorentzian metric on the underlying space-time. This is in strong contrast with the more complicated case of general symmetric quasilinear systems: the compressible isentropic Euler equations, for instance, can be viewed as a quasilinear wave equation coupled to a vector field; the system of nonlinear elasticity involves two different wave equations, etc.
I consider here only the case of quasilinear wave equations. We observe two main domains of interest: the study of global smooth solutions, and the study of low regularity solutions, both domains being connected.
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- Publisher: Cambridge University PressPrint publication year: 2010