The XY model with four-body quenched disordered interactions and its discrete p-clock proxy are studied on bipartite random graphs by means of the cavity method. The phase diagrams are determined from the ordered case to the spin-glass case. Dynamic, spinodal, and thermodynamic transition lines are identified by analyzing free energy, complexity, and tree reconstruction functions as temperature and disorder are changed. The study of the convergence of the p-clock model to the XY model is performed down to temperature low enough to determine all relevant transition points for different node connectivity.
Multi-body quenched disordered XY and p-clock models on random graphs
Marruzzo Alessia
Primo
;Leuzzi LucaUltimo
2016
Abstract
The XY model with four-body quenched disordered interactions and its discrete p-clock proxy are studied on bipartite random graphs by means of the cavity method. The phase diagrams are determined from the ordered case to the spin-glass case. Dynamic, spinodal, and thermodynamic transition lines are identified by analyzing free energy, complexity, and tree reconstruction functions as temperature and disorder are changed. The study of the convergence of the p-clock model to the XY model is performed down to temperature low enough to determine all relevant transition points for different node connectivity.File in questo prodotto:
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PhysRevB.93.094206.pdf
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