Activated dynamics and effective temperature in a steady state sheared glass

Abstract

We conduct nonequilibrium molecular dynamics simulations to measure the shear stress, the average inherent structure energy, and the effective temperature Teff of a sheared model glass as a function of bath temperature T and shear strain rate. For T above the glass transition temperature T0, the rheology approaches a Newtonian limit and Teff approaches T as the strain rate approaches zero, while for T<T0, the shear stress approaches a yield stress and Teff approaches a limiting value near T0. In the shear-dominated regime at high T, high strain rate or at low T, we find that the shear stress and the average inherent structure energy each collapse onto a single curve as a function of Teff. This indicates that Teff is controlling behavior in this regime.