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Monoclinic YFe$_{12}$ phases predicted from first principles

Materials Science 2020-10-21 v1

Abstract

We searched for stable crystal structures of YFe12_{12} using a crystal structure prediction technique based on a genetic algorithm and first-principles calculations. We obtained two monoclinic C2/mC2/m structures as metastable phases that are different from the well-known ThMn12_{12} structure. These two phases have advantages in their magnetism over the ThMn12_{12} structure: The total magnetization MM is increased from 25.6 μB\mu_{\text{B}}/f.u. up to 26.8 μB\mu_{\text{B}}/f.u. by the transformations. We also calculated Curie temperature TCT_{\text{C}} for these structures within the mean-field approximation and predicted the increase of TCT_{\text{C}} from 792 K up to 940 K, which is mainly caused by the increase of intersite magnetic couplings within the distance of 2.3--3.1\r{A}. The similar enhancements of MM and TCT_{\text{C}} are also obtained in the pseudo-binary system Y(Fe1x_{1-x}Cox_{x})12_{12} with xx of 0--0.7.

Keywords

Cite

@article{arxiv.2008.08749,
  title  = {Monoclinic YFe$_{12}$ phases predicted from first principles},
  author = {Takahiro Ishikawa and Taro Fukazawa and Takashi Miyake},
  journal= {arXiv preprint arXiv:2008.08749},
  year   = {2020}
}

Comments

6 pages, 5 figures

R2 v1 2026-06-23T17:58:44.532Z