Continuous spin systems, topological phase transitions and roughening.
by
Christophe Garban
→
Europe/Paris
Salle du conseil (Bâtiment administratif, Université Paul Sabatier)
Salle du conseil
Bâtiment administratif, Université Paul Sabatier
118, route de Narbonne, 31062 Toulouse cedex
Description
One of the main goals of statistical physics is to observe how spins displayed along a lattice Z^d interact together and fluctuate. When the spins belong to a discrete set (for example the celebrated Ising model where spins \sigma_x belong to {-1,+1}), the nature of the phase transitions which arise as one varies the temperature is now rather well understood. When the spins belong instead to a continuous space (for example the unit circle S^1 for the so-called XY model, the unit sphere S^2 for the classical Heisenberg model etc.), the nature of the phase transitions differs drastically from the discrete symmetry setting. The case where the (continuous) symmetry is non-Abelian is currently more mysterious than when the symmetry is Abelian. In the later case, phase transitions are caused by a change of behaviour of certain monodromies in the system called "vortices". They are called topological phase transitions for this reason. In this talk, after an introduction to the mathematics of spin systems with a continuous symmetry, I will present some recent results on these spins systems as well as on models naturally associated with them, such as Coulomb gases and random integer-valued interfaces.
The talk will not require any background in statistical physics/probability. Based on joint works with Juhan Aru, Paul Dario, Avelio Sepúlveda and Tom Spencer.