Recent advances in semiconductor technology have made it possible to fabricate microcavity structures in which both photon fields and electron--hole pairs (or excitons) are confined in a small volume comparable to their wavelength. The radiative properties of the electron--hole pairs and excitons are modified owing to the drastic change in the structure of the electromagnetic-field modes. This book is the first to give a comprehensive account of the theory of semiconductor cavity quantum electrodynamics for such systems in the weak-coupling and strong-coupling regimes. The important concepts are presented, together with relevant, recent experimental results.

This monograph is the first to give a comprehensive account of the theory of semiconductor cavity quantum electrodynamics for such systems in the weak-coupling and strong-coupling regimes. It presents the important concepts, together with relevant, recent experimental results.

Microcavity Exciton Polaritons.- Biexcitonic Effects in Microcavities.- Resonant Tunneling into Exciton and Polariton States.- Competition Between Photon Lasing and Exciton Lasing.- Polariton Dynamics in Photoluminescence.- Stimulated Emission of Exciton Polaritons.