Developing empirical potentials from ab initio simulations: The case of amorphous silica
Résumé
We discuss two procedures to obtain empirical potentials from ab initio trajectories. The first method
consists in adjusting the parameters of an empirical pair potential so that the radial distribution functions
extracted from classical simulations using this potential match the ones extracted from the ab initio sim-
ulations. As a case study, we consider the example of amorphous silica, a material that is highly relevant
in the field of glass science as well as in geology. With our approach we are able to obtain an empirical
potential that gives a better description with respect to structural and thermodynamic properties than
the potential proposed by van Beest, Kramer, and van Santen, and that has been very frequently used
as a model for amorphous silica. The second method is the so-called ‘‘force matching” approach proposed
by Ercolessi and Adams to obtain an empirical potential. We demonstrate that for the case of silica this
method does not yield a reliable potential and discuss the likely origin for this failure.