G. Ruocco, F. Sciortino, F. Zamponi, C. De Michele, T. Scopigno
Published 2004-01-23, updated 2004-05-27Version 2
The concept of fragility provides a possibility to rank different supercooled liquids on the basis of the temperature dependence of dynamic and/or thermodynamic quantities. We recall here the definitions of kinetic and thermodynamic fragility proposed in the last years and discuss their interrelations. At the same time we analyze some recently introduced models for the statistical properties of the potential energy landscape. Building on the Adam-Gibbs relation, which connects structural relaxation times to configurational entropy, we analyze the relation between statistical properties of the landscape and fragility. We call attention to the fact that the knowledge of number, energy depth and shape of the basins of the potential energy landscape may not be sufficient for predicting fragility. Finally, we discuss two different possibilities for generating strong behavior.
Comments: 17 pages, 10 figures; accepted version, minor corrections
Journal: J.Chem.Phys. 120, 10666 (2004)
The relationship between fragility, configurational entropy and the potential energy landscape of glass forming liquids
Lack of Stability in the Stillinger-Weber Analysis, and a Stable Analysis of the Potential Energy Landscape
Effects of random pinning on the potential energy landscape of a supercooled liquid
