Mode-coupling theory for the dynamic heterogeneity in an aging glass: How Do Glassy Domains Grow?

Abstract

We construct the equations for the growth kinetics of an aging structural glass within mode-coupling theory through a non-stationary variant of the 3-density correlator defined in Phys. Rev. Lett. 97, 195701 (2006). We solve a schematic form of the resulting equations to obtain the coarsening of the dynamic heterogeneity, characterized via the 3-point correlator 3(t,tw), as a function of waiting time tw. For a quench into the glass, we find that 3 attains a peak value tw0.5 at t -tw tw0.8, providing a theoretical basis for the numerical observations of Parisi [J. Phys. Chem. B 103, 4128 (1999)] and Kob and Barrat [Phys. Rev. Lett. 78, 4581 (1997)]. The aging is not "simple": the tw dependence cannot be attributed to an evolving effective temperature.