English

Long-Range Magnetic Exchange Pathways in Complex Clusters from First-Principles

Materials Science 2020-11-03 v1

Abstract

This work builds a bridge between density functional theory (DFT) and model interpretations of Anderson's superexchange theory by constructing a ff-dd-pp model with DFT Wannier functions to enable a direct quantum many-body solution within an embedding approach. When applied to long-range magnetic interactions in a Mn-Ce magnetic molecule, we are able to obtain numerical insights about double exchange and superexchange interactions. Direct metal-metal charge transfer processes are generally weak in this molecule, which leads to small contributions from double exchange interactions. For long-range interactions, Mn-Ce charge transfer is not significant compared to Ce-O charge transfer. The unusual superexchange between Mn atoms with different valence states is identified as the dominant mechanism. This procedure opens a path for quantitative understanding of different exchange interactions in complex magnetic systems, including molecular magnets, transition metal organic frameworks, and other solid materials.

Keywords

Cite

@article{arxiv.2011.00385,
  title  = {Long-Range Magnetic Exchange Pathways in Complex Clusters from First-Principles},
  author = {Dian-Teng Chen and Jia Chen and Xiang-Guo Li and George Christou and Xiao-Guang Zhang and Hai-Ping Cheng},
  journal= {arXiv preprint arXiv:2011.00385},
  year   = {2020}
}

Comments

6 pages, 5 figures

R2 v1 2026-06-23T19:48:50.144Z