Critical Exponents for Supercooled Liquids
arXiv:1302.2917
Abstract
We compute critical exponents governing universal features of supercooled liquids through the effective theory of an overlap field. The correlation length diverges with the Ising exponent; the size of dynamically heterogeneous patches grows more rapidly; and the relaxation time obeys a generalized Vogel-Fulcher-Tammann relation.
This paper has been withdrawn as motivation behind and interpretation of the calculations were based on a flawed theory