Table of 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.