Abstract: We present a general rule to shape a long-range potential of a Hamiltonian system for a Z-symmetry breaking phase transition (Z-SBPT) to occur. The main feature is a double-well potential which competes with the entropy in shaping the free energy accordingly to Landau mean-field theory of SBPTs. Further, we introduce a classical spin model undergoing a first-order Z-SBPT which was born from the effort to find one of the simplest way to generate such a phenomenon by means of a double-well potential. The model may be suitable also for didactic purposes and for numerical investigation of the dynamic near the transition point. Finally, we revisit the Ising model and the spherical model (Berlin-Kac) in mean-field version showing the double-well potential at work. Graphical abstract: [Figure not available: see fulltext.]
Symmetry breaking phase transitions in mean-field models triggered by double-well potentials
F Baroni
2020
Abstract
Abstract: We present a general rule to shape a long-range potential of a Hamiltonian system for a Z-symmetry breaking phase transition (Z-SBPT) to occur. The main feature is a double-well potential which competes with the entropy in shaping the free energy accordingly to Landau mean-field theory of SBPTs. Further, we introduce a classical spin model undergoing a first-order Z-SBPT which was born from the effort to find one of the simplest way to generate such a phenomenon by means of a double-well potential. The model may be suitable also for didactic purposes and for numerical investigation of the dynamic near the transition point. Finally, we revisit the Ising model and the spherical model (Berlin-Kac) in mean-field version showing the double-well potential at work. Graphical abstract: [Figure not available: see fulltext.]I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
