English

Evolutionary Metadynamics: a Novel Method to Predict Crystal Structures

Materials Science 2012-06-08 v2

Abstract

A novel method for crystal structure prediction, based on metadynamics and evolutionary algorithms, is presented here. This technique can be used to produce efficiently both the ground state and metastable states easily reachable from a reasonable initial structure. We use the cell shape as collective variable and evolutionary variation operators developed in the context of the USPEX method [Oganov, Glass, \textit{J. Chem. Phys.}, 2006, \textbf{124}, 244704; Lyakhov \textit{et al., Comp. Phys. Comm.}, 2010, \textbf{181}, 1623; Oganov \textit{et al., Acc. Chem. Res.}, 2011, \textbf{44}, 227] to equilibrate the system as a function of the collective variables. We illustrate how this approach helps one to find stable and metastable states for Al2_2SiO5_5, SiO2_2, MgSiO3_3, and carbon. Apart from predicting crystal structures, the new method can also provide insight into mechanisms of phase transitions.

Keywords

Cite

@article{arxiv.1204.3650,
  title  = {Evolutionary Metadynamics: a Novel Method to Predict Crystal Structures},
  author = {Qiang Zhu and Artem R. Oganov and Andriy O. Lyakhov},
  journal= {arXiv preprint arXiv:1204.3650},
  year   = {2012}
}

Comments

7 pages, 7 figures; CrystEngComm 2012, The Royal Society of Chemistry

R2 v1 2026-06-21T20:50:25.384Z