Universal Themes of Bose-Einstein Condensation
Cambridge University Press (Verlag)
978-1-107-08569-5 (ISBN)
Following an explosion of research on Bose–Einstein condensation (BEC) ignited by demonstration of the effect by 2001 Nobel prize winners Cornell, Wieman and Ketterle, this book surveys the field of BEC studies. Written by experts in the field, it focuses on Bose–Einstein condensation as a universal phenomenon, covering topics such as cold atoms, magnetic and optical condensates in solids, liquid helium and field theory. Summarising general theoretical concepts and the research to date - including novel experimental realisations in previously inaccessible systems and their theoretical interpretation - it is an excellent resource for researchers and students in theoretical and experimental physics who wish to learn of the general themes of BEC in different subfields.
N. P. Proukakis is a Professor of Quantum Physics at Newcastle University and the Associate Director of the Joint Quantum Centre Durham-Newcastle. He is an expert on finite temperature non-equilibrium modelling of quantum gases, and his research interests span from atomic physics to optical condensates, being mainly focused on universal features, non-equilibrium dynamics, multi-component condensates and superfluid turbulence. D. W. Snoke is a Professor of Physics at the University of Pittsburgh and a Fellow of the American Physical Society. He is author of over 130 articles and 4 books, including Bose–Einstein Condensation (with A. Griffin and S. Stringari, Cambridge, 1995), one of the first books to survey the phenomenon. His research focuses on non-equilibrium dynamics, semiconductor optics and Bose–Einstein condensation. P. B. Littlewood is Professor of Physics at the University of Chicago, former Head of the Cavendish Laboratory, University of Cambridge and former Director of Argonne National Laboratory, Illinois. Author of more than 200 articles, he has played an important role in the theory of Bose–Einstein condensation in cold atoms, polaritons and excitonic systems.
Foreword; List of contributors; Preface; Part I. Introduction: 1. Universality and Bose–Einstein condensation: perspectives on recent work D. W. Snoke, N. P. Proukakis, T. Giamarchi and P. B. Littlewood; 2. A history of Bose–Einstein condensation of atomic hydrogen T. Greytak and D. Kleppner; 3. Twenty years of atomic quantum gases: 1995–2015 W. Ketterle; 4. Introduction to polariton condensation P. B. Littlewood and A. Edelman; Part II. General Topics: Editorial notes; 5. The question of spontaneous symmetry breaking in condensates D. W. Snoke and A. J. Daley; 6. Effects of interactions on Bose–Einstein condensation R. P. Smith; 7. Formation of Bose–Einstein condensates M. J. Davis, T. M. Wright, T. Gasenzer, S. A. Gardiner and N. P. Proukakis; 8. Quenches, relaxation and pre-thermalization in an isolated quantum system T. Langen and J. Schmiedmayer; 9. Ultracold gases with intrinsic scale invariance C. Chin; 10. Berezinskii–Kosterlitz–Thouless phase of a driven-dissipative condensate N. Y. Kim, W. H. Nitsche and Y. Yamamoto; 11. Superfluidity and phase correlations of driven dissipative condensates J. Keeling, L. M. Sieberer, E. Altman, L. Chen, S. Diehl and J. Toner; 12. BEC to BCS crossover from superconductors to polaritons A. Edelman and P. B. Littlewood; Part III. Condensates in Atomic Physics: Editorial notes; 13. Probing and controlling strongly correlated quantum many-body systems using ultracold quantum gases I. Bloch; 14. Preparing and probing chern bands with cold atoms N. Goldman, N. R. Cooper and J. Dalibard; 15. Bose–Einstein condensates in artificial gauge fields L. J. LeBlanc and I. B. Spielman; 16. Second sound in ultracold atomic gases L. Pitaevskii and S. Stringari; 17. Quantum turbulence in atomic Bose–Einstein condensates N. G. Parker, A. J. Allen, C. F. Barenghi and N. P. Proukakis; 18. Spinor-dipolar aspects of Bose–Einstein condensation M. Ueda; Part IV. Condensates in Condensed Matter Physics: Editorial notes; 19. Bose–Einstein condensation of photons and grand-canonical condensate fluctuations J. Klaers and M. Weitz; 20. Laser operation and Bose–Einstein condensation: analogies and differences A. Chiocchetta, A. Gambassi and I. Carusotto; 21. Vortices in resonant polariton condensates in semiconductor microcavities D. N. Krizhanovskii, K. Guda, M. Sich, M. S. Skolnick, L. Dominici and D. Sanvitto; 22. Optical control of polariton condensates G. Christmann, P. G. Savvidis and J. J. Baumberg; 23. Disorder, synchronization and phase-locking in non-equilibrium Bose–Einstein condensates P. R. Eastham and B. Rosenow; 24. Collective topological excitations in 1D polariton quantum fluids H. Terças, D. D. Solnyshkov and G. Malpuech; 25. Microscopic theory of Bose–Einstein condensation of magnons at room temperature H. Salman, N. G. Berloff and S. O. Demokritov; 26. Spintronics and magnon Bose–Einstein condensation R. A. Duine, A. Brataas, S. A. Bender and Y. Tserkovnyak; 27. Spin-superfluidity and spin-current mediated non-local transport H. Chen and A. H. MacDonald; 28. Bose–Einstein condensation in quantum magnets C. Kollath, T. Giamarchi and C. Rüegg; Part V. Condensates in Astrophysics and Cosmology: Editorial notes; 29. Bose–Einstein condensates in neutron stars C. J. Pethick, T. Schäfer and A. Schwenk; 30. A simulated cosmological metric: the superfluid 3He condensate G. R. Pickett; 31. Cosmic axion Bose–Einstein condensation N. Banik and P. Sikivie; 32. Graviton BECs: a new approach to quantum gravity G. Dvali and C. Gomez; Universal Bose–Einstein condensation workshop; Index.
Erscheinungsdatum | 01.04.2017 |
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Zusatzinfo | 3 Tables, black and white; 81 Halftones, black and white; 57 Line drawings, black and white |
Verlagsort | Cambridge |
Sprache | englisch |
Maße | 178 x 253 mm |
Gewicht | 1450 g |
Themenwelt | Naturwissenschaften ► Physik / Astronomie ► Angewandte Physik |
Naturwissenschaften ► Physik / Astronomie ► Atom- / Kern- / Molekularphysik | |
Naturwissenschaften ► Physik / Astronomie ► Festkörperphysik | |
ISBN-10 | 1-107-08569-1 / 1107085691 |
ISBN-13 | 978-1-107-08569-5 / 9781107085695 |
Zustand | Neuware |
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