'… great care is taken in providing a mathematically correct and complete formalism which should also be appreciated by lecturers who use the book as a basis for their radiative transfer lecture. Another strength of this book is that it covers not only basic radiative transfer theory but also the underlying single scattering theory as well as the most important applications. As such, Radiation in the Atmosphere can probably replace three books: One about pure radiative transfer theory (like Chandrasekhar's Radiative Transfer), one about single scattering theory (like Bohren and Huffman's Absorption and Scattering of Light by Small Particles) and one about applications (remote sensing, clouds and climate). In summary, the book gives a precise overview about radiative transfer theory and related subjects.' Meteorologische Zeitschrift

1. Introduction; 2. The radiative transfer equation; 3. Principles of invariance; 4. Quasi-exact solution methods for the radiative transfer equation; 5. Radiative perturbation theory; 6. Two-stream methods for the solution of the radiative transfer equation; 7. Transmission in individual spectral lines and in bands of lines; 8. Absorption by gases; 9. Light scattering theory for spheres; 10. Effects of polarization in radiative transfer; 11. Remote sensing applications of radiative transfer; 12. Influence of clouds on the climate of the Earth; Answers to problems; List of frequently used symbols; References and bibliography; Index.