LECTURES
- D. Averin (Stony Brook)
- Mesoscopic quantum measurements
- C.W.J. Beenakker (Leiden)
- Electron-hole entanglement in the
Fermi sea
- G. Benenti (Como)
- Quantum chaos, decoherence and quantum
computation
- I. Bloch (Mainz)
- Neutral atoms
in optical lattices
- D. Bouwmeester (Santa Barbara)
- Quantum communication with entangled photons
- H.J. Briegel (Innsbruck)
- Quantum information and entanglement, one-way quantum computer
- N. Davidson (Weizmann)
- Atom-optics
billiards, hyperfine
spectroscopy of optically trapped atoms
- J. Eschner (Barcelona)
- Quantum computation with trapped ions
- D. Esteve (Saclay)
- Solid state qubits, superconducting qubits, decoherence
of a Josephson qubit
- R. Fazio (Pisa)
- Theoretical aspects
of superconducting qubits, geometric quantum
computation with Josephson qubits, quantum
state transfer and quantum cloning
- B. Georgeot (Toulouse)
- Quantum chaos in many-body systems -
application to quantum
computer hardware-, quantum algorithms for
quantum chaos , quantum algorithms for
classical chaos
- M. Grassl (Karlsruhe)
- Quantum error correction
- R. Laflamme (Waterloo)
- Quantum
optics and quantum
information, linear optics quantum
computing, LOQC and quantum error
correction
- H. Mabuchi (Caltech)
- Quantum measurements and quantum control
- A. Steane (Oxford)
- Quantum error correction
- P. Tombesi (Camerino)
- Entanglement in quantum optics
- L.M.K. Vandersypen (Delft)
- Quantum computing with quantum dots
- G. Vidal (Caltech)
- Entanglement and matrix product states in one-dimensional quantum
lattice systems
STUDENT
HIGHLIGHTS AND POSTERS