The wave equation on a curved space-time
Series: Cambridge monographs on Mathematical Physics 2Publication details: Cambridge, UK Cambridge University Press c1975 (p2010)Description: ix, 282pISBN: 9780521136365LOC classification: QC173.59.S65Summary: This book was originally published in 1975. In Einstein's General Theory of Relativity the effects of gravitation are represented by the curvature of space-time. Physical processes occurring in the presence of gravitation must then be treated mathematically in terms of their behaviour in a curved space-time. One of the most basic of these processes is wave propagation, and this book gives a rigorous discussion of the local effects of curvature on the behaviour of waves. In the course of this discussion many techniques are developed which are also needed for a study of more general problems, in which the gravitational field itself plays a dynamical role. Although much of the book deals with four-dimensional space-time, the n-dimensional case is also treated, more briefly. The subject-matter is also of interest in other branches of mathematical physics and, as a fresh account of the classical work of Hadamard and M. Riesz, in the theory of partial differential equations.Item type | Current library | Shelving location | Call number | Status | Date due | Barcode | Item holds |
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Book | ICTS | Rack No 9 | QC173.59.S65 (Browse shelf (Opens below)) | Available | 02639 |
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QC173.59.M3 Gravity : Newtonian, Post-Newtonian and Relativistic | QC173.59.S65 The large scale structure of space-time | QC173.59.S65 Spinors and Space time Vol.I | QC173.59.S65 The wave equation on a curved space-time | QC173.6 A first course in general relativity | QC173.6 General relativity | QC173.6 Gravity: an introduction to Einstein's general relativity |
This book was originally published in 1975. In Einstein's General Theory of Relativity the effects of gravitation are represented by the curvature of space-time. Physical processes occurring in the presence of gravitation must then be treated mathematically in terms of their behaviour in a curved space-time. One of the most basic of these processes is wave propagation, and this book gives a rigorous discussion of the local effects of curvature on the behaviour of waves. In the course of this discussion many techniques are developed which are also needed for a study of more general problems, in which the gravitational field itself plays a dynamical role. Although much of the book deals with four-dimensional space-time, the n-dimensional case is also treated, more briefly. The subject-matter is also of interest in other branches of mathematical physics and, as a fresh account of the classical work of Hadamard and M. Riesz, in the theory of partial differential equations.
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