Condensed matter Physics and Quantum Gases: models to understand high TC superconductivity,
physics of Fermi ultracold gases, electronic systems, superfluids and low dimensional
quantum systems. Ab-initio studies of equilibrium properties and dynamical response
functions. Theoretical and computational approaches to quantum many-body systems.
Probability theory, stochastic processes, stochastic differential equations and numerical
simulation techniques, in particular Quantum Monte Carlo, both in the configurational
space and in the Slater determinants manifolds.
Statistical methods for ill-posed inverse problems, with applications to the study
of dynamical properties of many-body quantum systems via Quantum Monte Carlo simulations.
