arXiv:1312.1137 Abstract | arXiv Analytics

arXiv:1312.1137 [math.PR]Abstract References Reviews Resources

Extremal Aging For Trap Models

Published 2013-12-04Version 1

In the seminal work [5], Ben Arous and \v{C}ern\'y give a general characterization of aging for trap models in terms of $\alpha$-stable subordinators with $\alpha \in (0,1)$. Some of the important examples that fall into this universality class are Random Hopping Time (RHT) dynamics of Random Energy Model (REM) and $p$-spin models observed on exponential time scales. In this paper, we explain a different aging mechanism in terms of {\it extremal processes} that can be seen as the extension of $\alpha$-stable aging to the case $\alpha=0$. We apply this mechanism to the RHT dynamics of the REM for a wide range of temperature and time scales. The other examples that exhibit extremal aging include the Sherrington Kirkpatrick (SK) model and $p$-spin models [6, 9], and biased random walk on critical Galton-Watson trees conditioned to survive [11].

Categories: math.PR

Subjects: 82C44, 82D30, 60G70

Keywords: trap models, extremal aging, spin models, random energy model, exponential time scales

Related articles: Most relevant | Search more

arXiv:1212.5117 [math.PR] (Published 2012-12-20, updated 2013-03-20)

Aging of asymmetric dynamics on the random energy model

Pierre Mathieu, Jean-Christophe Mourrat

arXiv:math/0603340 [math.PR] (Published 2006-03-14)

The arcsine law as a universal aging scheme for trap models

Gerard Ben Arous, Jiri Cerny

arXiv:math/0307148 [math.PR] (Published 2003-07-10)

Convergence to equilibrium for finite Markov processes, with application to the Random Energy Model