A learning scheme to predict atomic forces and accelerate materials simulations
Abstract
The behavior of an atom in a molecule, liquid or solid is governed by the force it experiences. If the dependence of this vectorial force on the atomic chemical environment can be efficiently with high-fidelity from benchmark reference results-using "big data" techniques, i.e., without resorting to actual functional forms-then this capability can be harnessed to enormously speed up materials simulations. The present contribution provides several examples of how such a field for Al can be used to go far beyond the length-scale and time-scale regimes accessible presently using quantum mechanical methods. It is argued that pathways are available to systematically and continuously improve the predictive capability of such a learned force field in an adaptive manner, and that this concept can be generalized to include multiple elements.
Keywords
Cite
@article{arxiv.1505.02701,
title = {A learning scheme to predict atomic forces and accelerate materials simulations},
author = {Venkatesh Botu and Rampi Ramprasad},
journal= {arXiv preprint arXiv:1505.02701},
year = {2015}
}
Comments
5pages, 3 figures