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Persistent homology-based descriptor for machine-learning potential of amorphous structures

Machine Learning 2023-05-23 v3 Disordered Systems and Neural Networks Materials Science

Abstract

High-accuracy prediction of the physical properties of amorphous materials is challenging in condensed-matter physics. A promising method to achieve this is machine-learning potentials, which is an alternative to computationally demanding ab initio calculations. When applying machine-learning potentials, the construction of descriptors to represent atomic configurations is crucial. These descriptors should be invariant to symmetry operations. Handcrafted representations using a smooth overlap of atomic positions and graph neural networks (GNN) are examples of methods used for constructing symmetry-invariant descriptors. In this study, we propose a novel descriptor based on a persistence diagram (PD), a two-dimensional representation of persistent homology (PH). First, we demonstrated that the normalized two-dimensional histogram obtained from PD could predict the average energy per atom of amorphous carbon (aC) at various densities, even when using a simple model. Second, an analysis of the dimensional reduction results of the descriptor spaces revealed that PH can be used to construct descriptors with characteristics similar to those of a latent space in a GNN. These results indicate that PH is a promising method for constructing descriptors suitable for machine-learning potentials without hyperparameter tuning and deep-learning techniques.

Keywords

Cite

@article{arxiv.2206.13727,
  title  = {Persistent homology-based descriptor for machine-learning potential of amorphous structures},
  author = {Emi Minamitani and Ippei Obayashi and Koji Shimizu and Satoshi Watanabe},
  journal= {arXiv preprint arXiv:2206.13727},
  year   = {2023}
}

Comments

24 pages, 6 figures

R2 v1 2026-06-24T12:06:20.158Z