University Institute of Advanced Studies in Atomic, Molecular and Photonic Physics

Lines of research

Quantum mechanics and its applications to quantum computing. Decoherence. Transport. Time in quantum mechanics. Measurement in quantum mechanics. Quantum chaos. Quantum clocks

Molecular physics. Atomic and molecular aggregates. Molecular dynamics and Monte Carlo simulations. Nanostructures. Liquid simulation

Applied mathematics. Equations of mathematical physics. Differential geometry and relativity.

Dynamical systems and nonlinear dynamics. Transport and statistical mechanics far from equilibrium. Dynamical chaos. Classical and quantum complex systems

Time-frequency signal analysis

Control of quantum systems

Laser spectroscopy and high pressures

Microresonators and Optomechanics

Nanostructured materials using femtosecond lasers

Integrated Photonics