Book contents
- Frontmatter
- Contents
- Preface
- 1 A Brief Introduction to Special Relativity and Light
- 2 An Introduction to Relativistic Kinematics, Kinetics and Energy
- 3 Relativity and Electromagnetic Fields
- 4 Electromagnetic Wave Interactions with Plasma and Other Matter
- 5 Particle Motion and Radiation in Electric and Magnetic Fields
- 6 Photon and Particle Distribution Functions
- 7 Radiation Emission, Absorption, and Scatter in Plasmas
- 8 Collisional Processes
- 9 Relativistic Optics
- 10 Solutions to Selected Exercises
- Appendix A Lorentz Invariant Quantities
- Appendix B Modified Bessel Functions of the Second Kind
- Appendix C The Chemical Potential Variation with Density
- References
- Index
3 - Relativity and Electromagnetic Fields
Published online by Cambridge University Press: 10 November 2022
Book contents
- Frontmatter
- Contents
- Preface
- 1 A Brief Introduction to Special Relativity and Light
- 2 An Introduction to Relativistic Kinematics, Kinetics and Energy
- 3 Relativity and Electromagnetic Fields
- 4 Electromagnetic Wave Interactions with Plasma and Other Matter
- 5 Particle Motion and Radiation in Electric and Magnetic Fields
- 6 Photon and Particle Distribution Functions
- 7 Radiation Emission, Absorption, and Scatter in Plasmas
- 8 Collisional Processes
- 9 Relativistic Optics
- 10 Solutions to Selected Exercises
- Appendix A Lorentz Invariant Quantities
- Appendix B Modified Bessel Functions of the Second Kind
- Appendix C The Chemical Potential Variation with Density
- References
- Index
Summary
The Lorentz invariance of the phase of light is discussed. The transformation between frames of electric and magnetic fields is determined. The transformation between frames of acceleration is determined. The effect on the angular range of light in a laboratory frame when emitted in a rapidly moving frame is discussed in some detail.
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- Publisher: Cambridge University PressPrint publication year: 2022