We perform numerical simulations, including parallel tempering, a four-state Potts glass model with binary random quenched couplings using the JANUS application-oriented computer. We find and characterize a glassy transition, estimating the critical temperature and the value of the critical exponents. Nevertheless, the extrapolation to infinite volume is hampered by strong scaling corrections. We show that there is no ferromagnetic transition in a large temperature range around the glassy critical temperature. We also compare our results with those obtained recently on the “random permutation” Potts glass.

Spin Glass Phase in the Four-State Three Dimensional Potts Model

GUIDETTI, Marco;MANTOVANI, Filippo;SCHIFANO, Sebastiano Fabio;TRIPICCIONE, Raffaele;
2009

Abstract

We perform numerical simulations, including parallel tempering, a four-state Potts glass model with binary random quenched couplings using the JANUS application-oriented computer. We find and characterize a glassy transition, estimating the critical temperature and the value of the critical exponents. Nevertheless, the extrapolation to infinite volume is hampered by strong scaling corrections. We show that there is no ferromagnetic transition in a large temperature range around the glassy critical temperature. We also compare our results with those obtained recently on the “random permutation” Potts glass.
2009
A., Cruz; L. A., Fernandez; A., Gordillo Guerrero; Guidetti, Marco; A., Maiorano; Mantovani, Filippo; E., Marinari; V., Martin Mayor; A., Munoz Sudupe...espandi
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11392/1378433
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