Bose-Einstein Condensation

Author:

A. Griffin, University of Toronto
D. W. Snoke, University of Pittsburgh
S. Stringari, Università degli Studi di Trento, Italy

Published:

July 1996

Availability:

Available

Format:

Paperback

ISBN:

9780521589901

$76.99

USD

Paperback

$76.99 USD

eBook

Description

This book is devoted to BEC as an interdisciplinary subject, covering atomic and molecular physics, laser physics, low temperatures, and astrophysics, and it will serve as an in-depth report on recent progress and will suggest promising research topics for graduate students and researchers in physics.

The first-ever book on the subject of Bose–Einstein condensation throughout all of physics
Very hot topic in physics since publication: New Scientist 31 May 96 gave news of first imaging of a Bose-Einstein state of matter
Very distinguished authors

Reviews & endorsements

"Bose-Einstein Condensation will be a valuable reference for both those in the field and those who want to understand the physics behind this fascinating new state of matter." Thomas Greytak, Physics Today

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Product details

Published: July 1996
Format: Paperback
ISBN: 9780521589901
Length: 620 pages
Dimensions: 228 × 151 × 33 mm
Weight: 0.829kg
Availability: Available

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Contents

1. Introduction: Unifying themes of Bose–Einstein condensation
Part I. Review Papers:
2. Some comments on Bose–Einstein condensation
3. Bose–Einstein condensation and superfluidity
4. Bose–Einstein condensation in liquid helium
5. Sum rules and Bose–Einstein condensation
6. Dilute degenerate gases
7. Prospects for Bose–Einstein condensation in magnetically trapped atomic hydrogen
8. Spin-polarized hydrogen: Prospects for Bose–Einstein condensation and two-dimensional superfluidity
9. Laser cooling and trapping of neutral atoms
10. Kinetics of Bose–Einstein condensation in an interacting Bose gas
11. Condensate formation in a Bose gas
12. Bose–Einstein condensation of excitonic particles in semiconductors
13. Macroscopic coherent states of excitons in semiconductors
14. Bose–Einstein condensation in a nearly ideal gas: excitons in Cu2O
15. Crossover from BCS theory to Bose–Einstein condensation
16. Bose–Einstein condensation of bipolarons in high-Tc superconductors
17. Kaon condensation in dense matter
18. The bosonization method in nuclear physics
19. Broken gauge symmetry in a Bose condensate
Part II. Brief Reports:
20. Bose–Einstein condensation in ultra-cold cesium: collisional constraints
21. Bose–Einstein condensation and relaxation explosion in magnetically trapped atomic hydrogen
22. Quest for Kosterlitz–Thouless transition in two-dimensional atomic hydrogen
23. Bose–Einstein condensation of biexcitons in CuCl
24. The influence of polariton effects on the Bose–Einstein condensation of biexcitons
25. Light-induced Bose–Einstein condensation of excitons and biexcitons
26. Decay of a non-equilibrium polariton condensate and the distribution functions of interacting polaritons in semiconductors
27. Possibilities for Bose–Einstein condensation in positronium
28. Excitonic superfluidity in Cu2O
29. On the Bose–Einstein condensation of excitons – finite-lifetime composite bosons
30. Charged bosons in quantum heterostructures
31. The dynamic structure function of Bose liquids in the deep inelastic regime
32. Evidence for bipolaronic Bose-liquid and Bose–Einstein condensation in high-Tc oxides
33. Bose–Einstein condensation and spin waves
34. Universal behaviour within the Nozières and Schmitt–Rink theory
35. Bound states and superfluidity in strongly coupled fermion systems
36. Onset of superfluidity in nuclear matter.

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About the authors

Contributors

P. Nozières, K. Huang, P. Sokol, S. Stringari, F. Laloë, T. J. Greytak, I. F. Silvera, Y. Castin, J. Dalibard, C. Cohen-Tannoudji, Yu Kagan, H. T. C. Stoof, A. Mysyrowicz, L. V. Keldysh, J. P. Wolfe, Jia Ling Lin, D. W. Snoke, M. Randeria, J. Ranninger, G.E. Brown, F. Iachello, A. J. Leggett.

Editors

A. Griffin , University of Toronto
Allan Griffin works in theoretical condensed matter theory and is Professor Emeritus of Physics at the University of Toronto. He received his BSc (1960) and MSc (1961) from the University of British Columbia, and his PhD at Cornell University (1965). Dr Griffin has spent research sabbaticals at the KFA Julich (Germany), the Institut Laue-Langevin in Grenoble (France), Kyoto University (Japan), the University of Trento (Italy) and was a JILA Fellow at the University of Colorado (USA). His research has been on superfluid He4, superconductivity and theory of ultracold atoms. He has been a short-term visiting professor at the ANU in Canberra (Australia), the Collège de France in Paris, and the University of Otago (New Zealand). Dr Griffin is a Fellow of the Royal Society of Canada (2003), a Fellow of the American Physical Society (2004), and received the Bronze Medal from the Collège de France (2001). He is the author of a monograph on Bose liquids (1993) and the editor of a well-known book on Bose-Einstein condensation (1995), both published by Cambridge University Press.
D. W. Snoke , University of Pittsburgh
S. Stringari , Università degli Studi di Trento, Italy

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