Ebook: Ray Optics, Fermat’s Principle, and Applications to General Relatively
Author: Volker Perlick (auth.)
- Tags: Relativity and Cosmology, Electromagnetism Optics and Lasers, Mathematical Methods in Physics, Magnetism Magnetic Materials
- Series: Lecture Notes in Physics 61
- Year: 2000
- Publisher: Springer-Verlag Berlin Heidelberg
- Edition: 1
- Language: English
- pdf
This book is about the mathematical theory of light propagation in media on general-relativistic spacetimes. The first part discusses the transition from Maxwell's equations to ray optics. The second part establishes a general mathematical framework for treating ray optics as a theory in its own right, making extensive use of the Hamiltonian formalism. This part also includes a detailed discussion of variational principles (i.e., various versions of Fermat's principle) for light rays in general-relativistic media. Some applications, e.g. to gravitational lensing, are worked out. The reader is assumed to have some basic knowledge of general relativity and some familiarity with differential geometry. Some of the results are published here for the first time, e.g. a general-relativistic version of Fermat's principle for light rays in a medium that has to satisfy some regularity condition only.
This book is about the mathematical theory of light propagation in media on general-relativistic spacetimes. The first part discusses the transition from Maxwell's equations to ray optics. The second part establishes a general mathematical framework for treating ray optics as a theory in its own right, making extensive use of the Hamiltonian formalism. This part also includes a detailed discussion of variational principles (i.e., various versions of Fermat's principle) for light rays in general-relativistic media. Some applications, e.g. to gravitational lensing, are worked out. The reader is assumed to have some basic knowledge of general relativity and some familiarity with differential geometry. Some of the results are published here for the first time, e.g. a general-relativistic version of Fermat's principle for light rays in a medium that has to satisfy some regularity condition only.
This book is about the mathematical theory of light propagation in media on general-relativistic spacetimes. The first part discusses the transition from Maxwell's equations to ray optics. The second part establishes a general mathematical framework for treating ray optics as a theory in its own right, making extensive use of the Hamiltonian formalism. This part also includes a detailed discussion of variational principles (i.e., various versions of Fermat's principle) for light rays in general-relativistic media. Some applications, e.g. to gravitational lensing, are worked out. The reader is assumed to have some basic knowledge of general relativity and some familiarity with differential geometry. Some of the results are published here for the first time, e.g. a general-relativistic version of Fermat's principle for light rays in a medium that has to satisfy some regularity condition only.
Content:
Front Matter....Pages I-X
Introduction to Part I....Pages 3-6
Light propagation in linear dielectric and permeable media....Pages 7-41
Light propagation in other kinds of media....Pages 43-58
Introduction to Part II....Pages 61-65
Ray-optical structures on arbitrary manifolds....Pages 67-109
Ray-optical structures on Lorentzian manifolds....Pages 111-147
Variational principles for rays....Pages 149-181
Applications....Pages 183-210
Back Matter....Pages 211-220
This book is about the mathematical theory of light propagation in media on general-relativistic spacetimes. The first part discusses the transition from Maxwell's equations to ray optics. The second part establishes a general mathematical framework for treating ray optics as a theory in its own right, making extensive use of the Hamiltonian formalism. This part also includes a detailed discussion of variational principles (i.e., various versions of Fermat's principle) for light rays in general-relativistic media. Some applications, e.g. to gravitational lensing, are worked out. The reader is assumed to have some basic knowledge of general relativity and some familiarity with differential geometry. Some of the results are published here for the first time, e.g. a general-relativistic version of Fermat's principle for light rays in a medium that has to satisfy some regularity condition only.
Content:
Front Matter....Pages I-X
Introduction to Part I....Pages 3-6
Light propagation in linear dielectric and permeable media....Pages 7-41
Light propagation in other kinds of media....Pages 43-58
Introduction to Part II....Pages 61-65
Ray-optical structures on arbitrary manifolds....Pages 67-109
Ray-optical structures on Lorentzian manifolds....Pages 111-147
Variational principles for rays....Pages 149-181
Applications....Pages 183-210
Back Matter....Pages 211-220
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