Science and Technology of Advanced Materials (Dec 2021)

Dissimilarity measure of local structure in inorganic crystals using Wasserstein distance to search for novel phosphors

  • Shota Takemura,
  • Takashi Takeda,
  • Takayuki Nakanishi,
  • Yukinori Koyama,
  • Hidekazu Ikeno,
  • Naoto Hirosaki

DOI
https://doi.org/10.1080/14686996.2021.1899555
Journal volume & issue
Vol. 22, no. 1
pp. 185 – 193

Abstract

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To efficiently search for novel phosphors, we propose a dissimilarity measure of local structure using the Wasserstein distance. This simple and versatile method provides the quantitative dissimilarity of a local structure around a center ion. To calculate the Wasserstein distance, the local structures in crystals are numerically represented as a bag of interatomic distances. The Wasserstein distance is calculated for various ideal structures and local structures in known phosphors. The variation of the Wasserstein distance corresponds to the structural variation of the local structures, and the Wasserstein distance can quantitatively explain the dissimilarity of the local structures. The correlation between the Wasserstein distance and the full width at half maximum suggests that candidates for novel narrow-band phosphors can be identified by crystal structures that include local structures with small Wasserstein distances to local structures of known narrow-band phosphors. The quantitative dissimilarity using the Wasserstein distance is useful in the search of novel phosphors and expected to be applied in materials searches in other fields in which local structures play an important role.

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