Chaotic size dependence makes it extremely difficult to take the thermodynamic limit in disordered systems. Instead, the metastate, which is a distribution over thermodynamic states, might have a smooth limit. So far, studies of the metastate have been mostly mathematical. We present a numerical construction of the metastate for the d=3 Ising spin glass. We work in equilibrium, below the critical temperature. Leveraging recent rigorous results, our numerical analysis gives evidence for a dispersed metastate, supported on many thermodynamic states.
Billoire, A., Fernandez, L.A., Maiorano, A., Marinari, E., Martin-mayor, V., Moreno-gordo, J., et al. (2017). Numerical construction of the aizenman-wehr metastate. PHYSICAL REVIEW LETTERS, 119(3) [10.1103/PhysRevLett.119.037203].
Numerical construction of the aizenman-wehr metastate
Maiorano, A.;
2017-01-01
Abstract
Chaotic size dependence makes it extremely difficult to take the thermodynamic limit in disordered systems. Instead, the metastate, which is a distribution over thermodynamic states, might have a smooth limit. So far, studies of the metastate have been mostly mathematical. We present a numerical construction of the metastate for the d=3 Ising spin glass. We work in equilibrium, below the critical temperature. Leveraging recent rigorous results, our numerical analysis gives evidence for a dispersed metastate, supported on many thermodynamic states.
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https://hdl.handle.net/11365/1126616