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Author:   George B. Rybicki (Harvard-Smithsonian Center for Astrophysics) ,  Alan P. Lightman (Harvard-Smithsonian Center for Astrophysics)
Publisher:   Wiley-VCH Verlag GmbH
Imprint:   Blackwell Verlag GmbH
Dimensions:   Width: 17.00cm , Height: 1.50cm , Length: 24.40cm
Weight:   0.680kg
ISBN:  

9783527414499

ISBN 10:   3527414495
Pages:   400
Publication Date:   24 July 2024
Audience:   Professional and scholarly ,  Professional & Vocational
Replaced By:   9783527414314
Format:   Paperback
Publisher's Status:   Active
Availability:   Out of stock  
The supplier is temporarily out of stock of this item. It will be ordered for you on backorder and shipped when it becomes available.

Table of Contents

Chapter 1 Fundamentals of Radiative Transfer 1.1 The Electromagnetic Spectrum; Elementary Properties of Radiation 1.2 Radiative Flux 1.3 The Specific Intensity and Its Moments 1.4 Radiative Transfer 1.5 Thermal Radiation 1.6 The Einstein Coefficients 1.7 Scattering Effects; Random Walks 1.8 Radiative Diffusion Chapter 2 Basic Theory of Radiation Fields 2.1 Review of Maxwell's Equations 2.2 Plane Electromagnetic Waves 2.3 The Radiation Spectrum 2.4 Polarization and Stokes Parameters 62 2.5 Electromagnetic Potentials 2.6 Applicability of Transfer Theory and the Geometrical Optics Limit Chapter 3 Radiation from Moving Charges 3.1 Retarded Potentials of Single Moving Charges: The Liénard-Wiechart Potentials 3.2 The Velocity and Radiation Fields 3.3 Radiation from Nonrelativistic Systems of Particles 3.4 Thomson Scattering (Electron Scattering) 3.5 Radiation Reaction 3.6 Radiation from Harmonically Bound Particles Chapter 4 Relativistic Covariance and Kinematics 4.1 Review of Lorentz Transformations 4.2 Four-Vectors 4.3 Tensor Analysis 4.4 Covariance of Electromagnetic Phenomena 4.5 A Physical Understanding of Field Transformations 129 4.6 Fields of a Uniformly Moving Charge 4.7 Relativistic Mechanics and the Lorentz Four-Force 4.8 Emission from Relativistic Particles 4.9 Invariant Phase Volumes and Specific Intensity Chapter 5 Bremsstrahlung 5.1 Emission from Single-Speed Electrons 5.2 Thermal Bremsstrahlung Emission 5.3 Thermal Bremsstrahlung (Free-Free) Absorption 5.4 Relativistic Bremsstrahlung Chapter 6 Synchrotron Radiation 6.1 Total Emitted Power 6.2 Spectrum of Synchrotron Radiation: A Qualitative Discussion 6.3 Spectral Index for Power-Law Electron Distribution 6.4 Spectrum and Polarization of Synchrotron Radiation: A Detailed Discussion 6.5 Polarization of Synchrotron Radiation 6.6 Transition from Cyclotron to Synchrotron Emission 6.7 Distinction between Received and Emitted Power 6.8 Synchrotron Self-Absorption 6.9 The Impossibility of a Synchrotron Maser in Vacuum Chapter 7 Compton Scattering 7.1 Cross Section and Energy Transfer for the Fundamental Process 7.2 Inverse Compton Power for Single Scattering 7.3 Inverse Compton Spectra for Single Scattering 7.4 Energy Transfer for Repeated Scatterings in a Finite, Thermal Medium: The Compton Y Parameter 7.5 Inverse Compton Spectra and Power for Repeated Scatterings by Relativistic Electrons of Small Optical Depth 7.6 Repeated Scatterings by Nonrelativistic Electrons: The Kompaneets Equation 7.7 Spectral Regimes for Repeated Scattering by Nonrelativistic Electrons Chapter 8 Plasma Effects 8.1 Dispersion in Cold, Isotropic Plasma 8.2 Propagation Along a Magnetic Field; Faraday Rotation 8.3 Plasma Effects in High-Energy Emission Processes Chapter 9 Atomic Structure 9.1 A Review of the Schrödinger Equation 9.2 One Electron in a Central Field 9.3 Many-Electron Systems 9.4 Perturbations, Level Splittings, and Term Diagrams 9.5 Thermal Distribution of Energy Levels and Ionization Chapter 10 Radiative Transitions 10.1 Semi-Classical Theory of Radiative Transitions 10.2 The Dipole Approximation 10.3 Einstein Coefficients and Oscillator Strengths 10.4 Selection Rules 10.5 Transition Rates 10.6 Line Broadening Mechanisms Chapter 11 Molecular Structure 11.1 The Born-Oppenheimer Approximation: An Order of Magnitude Estimate of Energy Levels 11.2 Electronic Binding of Nuclei 11.3 Pure Rotation Spectra 11.4 Rotation-Vibration Spectra 11.5 Electronic-Rotational-Vibrational Spectra Solutions Index

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Author Information

George B. Rybicki received his B.S. degree in physics from Carnegie-Mellon University and his Ph.D. in physics from Harvard University. He is a physicist at the Harvard-Smithsonian Center for Astrophysics and lecturer in the Astronomy Department at Harvard. His research interests include stellar atmospheres, stellar dynamics and radiative transfer. Alan P. Lightman received his A.B. degree in physics from Princeton University and his Ph.D. in theoretical physics from the California Institute of Technology. He was a research fellow at Cornell and then an Assistant Professor of Astronomy at Harvard University from 1976-1979. He is presently at the Harvard-Smithsonian Center for Astrophysics. His research includes work in general relativity, the astrophysics of black holes, radiation mechanisms, and stellar dynamics. He is also a coauthor of Problem Book in Relativity and Gravitation (1975).

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