1. An experiment-oriented analysis of 2D spin-glass dynamics: a twelve time-decades scaling study.
- Author
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L A Fernandez, E Marinari, V Martin-Mayor, G Parisi, and J J Ruiz-Lorenzo
- Subjects
SPIN glasses ,CRITICAL point (Thermodynamics) ,MAGNITUDE (Mathematics) - Abstract
Recent high precision experimental results on spin-glass films ask for a detailed understanding of the domain-growth dynamics of two-dimensional spin glasses. To achieve this goal, we numerically simulate the out-equilibrium dynamics of the Ising spin glass for a time that spans close to twelve orders of magnitude (from picoseconds to order of a second), in systems large enough to avoid finite-size effects. We find that the time-growth of the size of the glassy domains is excellently described by a single scaling function. A single time-scale controls the dynamics. diverges upon approaching the T = 0 critical point. The divergence of is Arrhenius-like, with a barrier height that depends very mildly on temperature. The growth of this barrier-height is best described by critical dynamics. As a side product we obtain an impressive confirmation of universality of the equilibrium behavior of two-dimensional spin-glasses. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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