Federico Corberi, Eugenio Lippiello, Marco Zannetti
Published 2004-12-06Version 1
We overview the general scaling behavior of the effective temperature in the que nches of simple non disordered systems, like ferromagnets, to and below $T_C$. Emphasis is on the behavior as d imensionality is varied. Consequences on the shape of the asymptotic parametric representation are derived. In particu lar, this is always trivial in the critical quenches with $T_C>0$. We clarify that the quench to $T_C=0$ at the lower critical dimensionality $d_L$, cannot be regarded as a critical quench. Implications for the behavior of the exponent $a$ of the aging response function in the quenches below $T_C$ are developed.
Comments: 22 pages, 7 figures. To be published on Jstat
Journal: Jstat, P12007 (2004).
Effective temperatures in inhomogeneous passive and active bidimensional Brownian particle systems
Effective temperature from fluctuation-dissipation theorem in systems with bipartite eigenmode entanglement
Interface fluctuations, bulk fluctuations and dimensionality in the off-equilibrium response of coarsening systems
