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Informationen zum Autor Jean Dalibard works in the field of atomic physics and quantum optics. His recent activities is centered on the physics of cold quantum gases, in particular Bose-Einstein condensation.
List of contents
Course 1. Principles of quantum computation (I. Chuang).
Course 2. Mesoscopic state superpositions and decoherence in quantum optics (S. Haroche).
Course 3. Cavity quantum electrodynamics (M. Brune).
Course 4. Quantum optical implementation of quantum information processing (P. Zoller et al.).
Course 5. Quantum information processing in ion traps I (R. Blatt et al.).
Course 6. Quantum information processing in ion traps II (D.J. Wineland).
Course 7. Quantum cryptography with and without entanglement (N. Gisin, N. Brunner).
Course 8. Quantum cryptography: from one to many photons (P. Grangier).
Course 9. Entangled photons and quantum communication (M. Aspelmeyer et al.).
Course 10. Nuclear magnetic resonance quantum computation (J.A. Jones).
Course 11. Introduction to quantum conductors (D.C. Glattli).
Course 12. Superconducting qubits (M.H. Devoret,J.M. Martinis).
Course 13. Superconducting qubits and the physics of Josephson junctions (J.M. Martinis).
Course 14. Josephson quantum bits based on a Cooper pair box (D. Vion).
Course 15. Quantum tunnelling of magnetization in molecular nanomagnets (W. Wernsdorfer).
Course 16. Prospects for strong cavity quantum electrodynamics with superconducting cirquits (S.M. Girvin et al.).
