Qualitative change in structural dynamics of some glass-forming systems

Analysis of temperature dependence of structural relaxation time in supercooled liquids revealed a qualitatively distinct feature - a sharp, cusp-like maxumum in the second derivative of its logarithm. It suggests that the super-Arrhenius behavior of the structural relaxation time in glass-forming liquids eventually crosses over to the Arrhenius behavior below the temperature of maximum, and there is no divergence of the relaxation time at non-zero temperature. The position of the maximum can be both above or below glass transition temperature, depending on the sensitivity of the structural relaxation time to changes in density. These results might turn the discussion of the glass transition to the new avenue - the origin of the limiting activation energy for structural relaxation at low temperatures.