Statistical physics sets out to explain how the patterns and structures around us in the macroscopic world arise from the interactions between their component parts.
Researchers
Andrea Baldassarri, Dario Borgogno, Claudio Castellano, Andrea Cavagna, Massimo Cencini, Fabio Cecconi, Francesca Colaiori, Giulio Costantini, Giovanni Giacomelli, Andrea Gnoli, , Daniela Grasso, Thomas Kreuz, Stefano Iubini, Stefano Lepri, Chiara Marchetto, Giancarlo Margheri, Marco Montuori, Simona Olmi, Alberto Petri, Paolo Politi, Maria Gloria Pini, Marco Pretti, Andrea Puglisi, Alessandro Sarracino, Antonio Scala, Antonio Maria Scarfone, Andrea Tacchella, Alessandro Taloni, Alessandro Torcini
Dynamics of self-gravitating systems
in Statistical DynamicsMatter density fields in the early universe
in Statistical DynamicsTotal gravitational force and the classification of long range interactions
in Statistical DynamicsRole of microscopic chaos to macroscopic transport
in Turbulence and TransportDisorder driven non-equilibrium phase transition: the Random field Ising model
in Disordered systemsSystems with multiplicative noise
in Statistical DynamicsMetastable states and supersymmetry
in Disordered systemsField theory for finite dimensional spin glasses
in Disordered systemsThe growth of amorphous order in supercooled liquids
in Disordered systemsCrackling noise: the Barkhausen effect
in Disordered systemsDynamic hysteresis in thin and ultra-thin films
in Disordered systemsDynamical Processes on Networks
in Stochastic Processes