Super-radiance: Multiatomic Coherent Emission provides a comprehensive, self-contained account of the theory and experiments of the quantum optic phenomenon of superradiance. Contributed by highly regarded researchers in the field, the book first presents the theory of superradiance at a level suitable for graduate physicists approaching the subject for the first time. This introduction is followed by a more rigorous treatment that is supported by the analysis of experiments dealing with superradiance and by a discussion on the possible uses of the effect in other areas of optics and electronics. The theoretical and experimental results presented in this book will introduce a wide audience to this important area of quantum optics.
"The book deserves to receive attention by advanced students and practicing physicists and engineers in this field … The authors have unquestionably provided a valuable addition to the optical literature, which will be widely welcomed for its range, depth, and style of coverage."
Preface. Introduction. The elementary theory of super-radiance. The observation of super-radiance. Quantum electrodynamical approach. Quantum fluctuations and self-organization in super-radiance. The semiclassical theory. The influence of dipole-dipole inter-atomic coupling upon super-radiance. Super-radiance of multi-spin systems. Effects of diffraction upon super-radiance. Reflection and transmission on the boundary of a resonant medium. Resonant boundary value problem with local field effects. New sources and applications of super-radiance. Super-radiance references and further reading. Other references. Index.