G. Tarjus, S. A. Kivelson, Z. Nussinov, P. Viot
Published 2005-09-06Version 1
One of the most spectacular phenomena in physics in terms of dynamical range is the glass transition and the associated slowing down of flow and relaxation with decreasing temperature. That it occurs in many different liquids seems to call for a "universal" theory. In this article, we review one such theoretical approach which is based on the concept of "frustration". Frustration in this context describes an incompatibility between extension of the locally preferred order in a liquid and tiling of the whole space. We provide a critical assessment of what has been achieved within this approach and we discuss the relation with other theories of the glass transition.
Comments: 48 pages, 13 figures, submitted to J. Phys : Cond. Matter
The Viscous Slowing Down of Supercooled Liquids and the Glass Transition: Phenomenology, Concepts, and Models
The Mode-Coupling Theory of the Glass Transition
Supercooled liquids, the glass transition, and computer simulations
