Floppy Mode Degeneracy and Decoupling of Constraint Predictions in Super-Cooled Borate and Silicate Liquids

*Correspondence: Lothar Wondraczek, Otto-Schott-Institute, University of Jena, Fraunhoferstrasse 6, Jena 07743, Germany e-mail: lothar.wondraczek@ uni-jena.de The theory of temperature-dependent topological constraints has been used to successfully explain the compositional dependence of glass properties for oxide and non-oxide compositions. It relates the number of topological degrees of freedom with the glass transition temperature through the configurational entropy of the system. Based on this, we estimated the number of degrees of freedom directly from viscosity measurements of binary alkali borate and silicate glasses. Both approaches exhibit a strong decoupling, which we suggest can be traced to the presence of mediumand long-range constraints that are not taken into account by bond constraint counting. The observed variation of the energy barrier for structural rearrangement and floppy mode degeneracy also corroborate our interpretation.We provide evidence that the degeneracy of floppy modes changes with chemical composition and that the parameter K (x ) of the MYEGA viscosity equation could be used to assess changes in the medium-range order.