General and mathematical aspects of statistical physics
thermodynamics, rigorous results, exact solutions, random matrices, stochastic field theory, information theory, optimizations, etc.
Phase transitions and critical phenomena
equilibrium and nonequilibrium
driven systems, transport theory, relaxation and response dynamics, random processes, anomalous diffusion, fluctuation theorems, large deviations, etc.
polymers, gels, liquid crystals, microemulsions, foams, membranes, colloids, granular materials, etc.
Fluids and interfacial phenomena
molecular and ionic fluids, metastable liquids, hydrodynamic instabilities, turbulence, growth processes, wetting, surface effects, films, crystals, confined systems, etc.
dynamical systems, chaos (classical and quantum), pattern formation, chemical reactions, etc.
strongly correlated electrons, cold atoms, graphene, soft quantum matter, mesoscopic quantum phenomena, fractional quantum Hall effect, low dimensional quantum field theory, quantum phase transitions, quantum information and entanglement, etc.
Disordered and glassy systems
percolation, spin glasses, structural glasses, jamming, glass transition, algorithmic problems, SAT, etc.
Biophysics and biologically motivated problems
molecular motors, dynamics at the scale of the cell, spatio-temporal organization in biological systems, biological membranes, biopolymer folding, genomics, biological networks, evolution models, evolutionary game theory, etc.
Interdisciplinary topics in statistical physics
networks and graphs, applied networks, econophysics, social phenomena, traffic flow, etc.