Bose-Einstein Condensation of Excitons and Biexcitons

Bose-Einstein Condensation of Excitons and Biexcitons : And Coherent Nonlinear Optics with Excitons

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Description

Bose-Einstein condensation of excitons is a unique effect in which the electronic states of a solid can self-organize to acquire quantum phase coherence. The phenomenon is closely linked to Bose-Einstein condensation in other systems such as liquid helium and laser-cooled atomic gases. This is the first book to provide a comprehensive survey of this field, covering theoretical aspects as well as recent experimental work. After setting out the relevant basic physics of excitons, the authors discuss exciton-phonon interactions as well as the behaviour of biexcitons. They cover exciton phase transitions and give particular attention to nonlinear optical effects including the optical Stark effect and chaos in excitonic systems. The thermodynamics of equilibrium, quasi-equilibrium, and nonequilibrium systems are examined in detail. The authors interweave theoretical and experimental results throughout the book, and it will be of great interest to graduate students and researchers in semiconductor and superconductor physics, quantum optics, and atomic physics.show more

Product details

  • Electronic book text
  • CAMBRIDGE UNIVERSITY PRESS
  • Cambridge University Press (Virtual Publishing)
  • Cambridge, United Kingdom
  • 111 b/w illus. 4 tables
  • 113924390X
  • 9781139243902

Review quote

"...a most useful text by two physicists each of whom has made substantial contributions to the field of Bose-Einstein condensation...a thorough introduction to all aspects of condensed matter physics, combined with much of the formal theory required to understand a wide range of experiments...Any scientist interested in establishing a more constructive dialogue with the science and technology studies community would be well-advised to read [this work]." Physics Todayshow more

Table of contents

1. Introduction; 2. Basic theory; 3. Interaction with phonons; 4. Biexcitons; 5. Phase transitions of excitons; 6. The optical Stark effect; 7. Mixed states of excitons and photons; 8. Nonequilibrium kinetics; 9. Coherent nonlinear optics; 10. New directions; Appendix.show more