The first treatment of BoseEinstein condensation at finite temperatures for researchers and graduate students in atomic, molecular and optical physics.
The first treatment of BoseEinstein condensation at finite temperatures for researchers and graduate students in atomic, molecular and optical physics.
Allan Griffin is Professor Emeritus of Physics at the University of Toronto, Canada. His research has been on superfluid helium, superconductivity and the theory of ultracold matter and quantum gases. He is co-editor of Bose-Einstein Condensation (Cambridge, 1996) and the author of Excitations in a Bose-condensed Liquid (Cambridge, 2005).
Inhaltsangabe
Preface 1. Overview and introduction 2. Condensate dynamics at T=0 3. Couple equations for the condensate and thermal cloud 4. Green's functions and self-energy approximations 5. The Beliaev approximation and the time-dependent HFB 6. 6. Kadanoff-Baym derivation of the ZNG equations 7. Kinetic equations for Bogoliubov thermal excitations 8. Static thermal cloud approximation 9. Vortices and vortex lattices at finite temperatures 10. Dynamics at finite temperatures using the moment method 11. Numerical simulation of the ZNG equations 12. Numerical simulation of collective modes at finite temperature 13. Landau damping in trapped Bose-condensed gases 14. Landau's theory of superfluidity 15. Two-fluid hydrodynamics in a dilute Bose gas 16. Variational formulation of the Landau two-fluid equations 17. The Landau-Khalatnikov two-fluid equations 18. Transport coefficients and relaxation times 19. General theory of damping of hydrodynamic modes Appendices References Index.
Preface 1. Overview and introduction 2. Condensate dynamics at T=0 3. Couple equations for the condensate and thermal cloud 4. Green's functions and self-energy approximations 5. The Beliaev approximation and the time-dependent HFB 6. 6. Kadanoff-Baym derivation of the ZNG equations 7. Kinetic equations for Bogoliubov thermal excitations 8. Static thermal cloud approximation 9. Vortices and vortex lattices at finite temperatures 10. Dynamics at finite temperatures using the moment method 11. Numerical simulation of the ZNG equations 12. Numerical simulation of collective modes at finite temperature 13. Landau damping in trapped Bose-condensed gases 14. Landau's theory of superfluidity 15. Two-fluid hydrodynamics in a dilute Bose gas 16. Variational formulation of the Landau two-fluid equations 17. The Landau-Khalatnikov two-fluid equations 18. Transport coefficients and relaxation times 19. General theory of damping of hydrodynamic modes Appendices References Index.
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