M. Sasaki, O. C. Martin
Published 2003-03-20, updated 2003-09-02Version 2
We use simulations within the Migdal-Kadanoff real space renormalization approach to probe the scales relevant for rejuvenation and memory in spin glasses. One of the central questions concerns the role of temperature chaos. First we investigate scaling laws of equilibrium temperature chaos, finding super-exponential decay of correlations but no chaos for the total free energy. Then we perform out of equilibrium simulations that follow experimental protocols. We find that: (1) rejuvenation arises at a length scale smaller than the ``overlap length'' l(T,T'); (2) memory survives even if equilibration goes out to length scales much larger than l(T,T').
Comments: 4 pages, 4 figures, added references, slightly changed content, modified Fig. 4
Journal: Phys. Rev. Lett. 91, 097201 (2003)
Rejuvenation and Memory in Migdal-Kadanoff Spin Glasses
Absence of aging in the remanent magnetization in Migdal-Kadanoff spin glasses
Investigating the Interplay Between Aging and Rejuvenation in Spin Glasses
