Problems of condensed matter physics : quantum coherence phenomena in electron-hole and coupled matter-light systems

0. Preface 1. Recollections 2. Once again on the "Physical Minimum" 3. Hybrid Organic-Inorganic Nanostructures and Light-Matter Interaction 4. The acoustic-wave driven quantum processor 5. On the problem of many-body localization 6. Raman scattering by LO phonons in semiconductors: the role of the Franz-Keldysh effect 7. Phenomena in cold exciton gases: from theory to experiments 8. Composite Fermions and Fractional Quantum Hall effect in two-dimensional electron system 9. Microcavities with quantum dots: weak and strong coupling regimes 10. Dynamics of cold excitons and electron-hole ensembles in direct-gap semiconductors studied by mid-infrared pump and probe spectroscopy 11. Exciton Coherence 12. Inelastic Light Scattering by Low-lying Excitations of Quantum Hall Fluids 13. Remarks on Surface-atoms Forces in London and Lifshitz Limits 14. Modern trends in semiconductor spintronics 15. Excitonic insulators, electron-hole liquids and metal-insulator transitions 16. Electron-hole liquid in semiconductors 17. Collective state of interwell excitons in double quantum wells heterostructures 18. Bose-Einstein condensation of excitons: Promise and disappointment 19. Acoustically induced superlattices: from photons and electrons to excitons and polaritons 20. Inelastic tunneling spectroscopy of single surface adsorbed molecules