Partial Differential Equations in General Relativity
Series: Oxford Graduate Texts in Mathematics;
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Product details:
- Publisher OUP Oxford
- Date of Publication 3 April 2008
- ISBN 9780199215416
- Binding Paperback
- No. of pages296 pages
- Size 234x157x17 mm
- Weight 455 g
- Language English
- Illustrations 6 line illustrations 0
Categories
Short description:
A text that will bring together PDE theory, general relativity and astrophysics to deliver an overview of theory of partial differential equations for general relativity. The text will include numerous examples and provide a unique resource for graduate students in mathematics and physics, numerical relativity and cosmology.
MoreLong description:
A graduate level text on a subject which brings together several areas of mathematics and physics: partial differential equations, differential geometry and general relativity. It explains the basics of the theory of partial differential equations in a form accessible to physicists and the basics of general relativity in a form accessible to mathematicians. In recent years the theory of partial differential equations has come to play an ever more important role in research on general relativity. This is partly due to the growth of the field of numerical relativity, stimulated in turn by work on gravitational wave detection, but also due to an increased interest in general relativity among pure mathematicians working in the areas of partial differential equations and Riemannian geometry, who have realized the exceptional richness of the interactions between geometry and analysis which arise. This book provides the background for those wishing to learn about these topics. It treats key themes in general relativity including matter models and symmetry classes and gives an introduction to relevant aspects of the most important classes of partial differential equations, including ordinary differential equations, and material on functional analysis. These elements are brought together to discuss a variety of important examples in the field of mathematical relativity, including asymptotically flat spacetimes, which are used to describe isolated systems, and spatially compact spacetimes, which are of importance in cosmology.
This text is written in a style accessible to both physics and mathematics students.
Table of Contents:
Introduction
General relativity
Matter models
Symmetry classes
Ordinary differential equations
Functional Analysis
Elliptic Equations
Hyperbolic Equations
The Cauchy problem for the Einstein equations
Global results
The Einstein-Vlasov Equation
The Einstein-scalar field system
