Ripples in a string coupled to Glauber spins
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2012
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American Physical Society
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Bonilla, L. L., Carpio Rodríguez, A. M., Prados, A. y Rosales, R. R. «Ripples in a String Coupled to Glauber Spins». Physical Review E, vol. 85, n.o 3, marzo de 2012, p. 031125. https://doi.org/10.1103/PhysRevE.85.031125.
Abstract
Each oscillator in a linear chain (a string) interacts with a local Ising spin in contact with a thermal bath. These spins evolve according to Glauber dynamics. Below a critical temperature, there appears an equilibrium, time-independent, rippled state in the string that is accompanied by a nonzero spin polarization. On the other hand, the system is shown to form “metastable,” nonequilibrium long-lived ripples in the string for slow spin relaxation. The system vibrates rapidly about these quasistationary states, which can be described as snapshots of a coarse-grained stroboscopic map. For moderate observation times, ripples are observed irrespective of the final thermodynamically stable state (rippled or not). Interestingly, the system can be considered as a “minimal” model to understand rippling in clamped graphene sheets.