English

Copper-based charge transfer multiferroics with a $d^9$ configuration

Strongly Correlated Electrons 2023-06-05 v1

Abstract

Multiferroics are materials with a coexistence of magnetic and ferroelectric order allowing the manipulation of magnetism by applications of an electric field through magnetoelectric coupling effects. Here we propose an idea to design a class of multiferroics with a d9d^9 configuration using the magnetic order in copper-oxygen layers appearing in copper oxide high-temperature superconductors by inducing ferroelectricity. Copper-based charge transfer multiferroics SnCuO2 and PbCuO2 having the inversion symmetry breaking P4mmP4mm polar space group are predicted to be such materials. The active inner s electrons in Sn and Pb hybridize with O 2p2p states leading the buckling in copper-oxygen layers and thus induces ferroelectricity, which is known as the lone pair mechanism. As a result of the d9d^9 configuration, SnCuO2 and PbCuO2 are charge transfer insulators with the antiferromagnetic ground state of the moment on Cu retaining some strongly correlated physical properties of parent compounds of copper oxide high-temperature superconductors. Our work reveals the possibility of designing multiferroics based on copper oxide high-temperature superconductors.

Keywords

Cite

@article{arxiv.2306.01361,
  title  = {Copper-based charge transfer multiferroics with a $d^9$ configuration},
  author = {Hu Zhang and RuiFeng Zhang and Lulu Zhao and Chendong Jin and Ruqian Lian and Peng-Lai Gong and RuiNing Wang and JiangLong Wang and Xing-Qiang Shi},
  journal= {arXiv preprint arXiv:2306.01361},
  year   = {2023}
}

Comments

18 pages, 5 figures, 1 table

R2 v1 2026-06-28T10:54:20.113Z