Dibyendu Das, Jane' Kondev, Bulbul Chakraborty
Published 2001-12-16Version 1
We propose a new scenario for glassy dynamics in frustrated systems with no quenched-in randomness, based on jamming of extended dynamical structures near a critical point. This route to a glassy state is demonstrated in a lattice model of fluctuating lines. Numerical simulations of the model show non-exponential relaxations and diverging energy barriers in the vicinity of a thermodynamic phase transition. A master equation for the coarse grained dynamics is constructed. It shows how topological jamming leads to the observed glassy dynamics.
Comments: 4 pages, 3 postscript figures
Glassy dynamics as a melting process (On melting dynamics and the glass transition, Part II)
The cross-over from 2D to 3D percolation and its relationship to glass transition in thin films. Theory and numerical simulations
Gauge theory approach to glass transitions
