U. Buchenau
Published 2004-07-09Version 1
A recent hypothesis claims that the glass transition itself, though it is a very pronounced relaxation peak, is no separate relaxation process at all, but is just the breakdown of the shear modulus due to the weak elastic dipole interaction between all the quasi-independent relaxation centers of the glass. Two derivations are considered, one of them in terms of a breakdown of the shear modulus and the second in terms of a divergence of the shear compliance. Mechanical relaxation data from the literature for vitreous silica, glycerol, polymethylmethacrylate and polystyrene are found to be consistent with the first hypothesis.
Comments: 9 pages, 2 figures, 20 references. Accepted in Journal of Low Temperature Physics in a volume dedicated to Sigi Hunklinger's 65th birthday 2004
Journal: J. Low-Temp. Phys. 137, 345 (2004)
The breakdown of the shear modulus at the glass transition
Probing a liquid to glass transition in equilibrium
Spatiotemporal intermittency and localized dynamic fluctuations upon approaching the glass transition
