Investigating the Magnetic Properties of the Giant Mn<sub>84</sub> Torus

Dian-Teng Chen; Henry F Schurkus; Matthew J O'Rourke; Ashlyn R Hale; George Christou; Garnet Chan; Hai-Ping Cheng

Investigating the Magnetic Properties of the Giant Mn<sub>84</sub> Torus

ORAL

Abstract

The giant single-molecule magnet Mn₈₄ has a shape of torus of eighty-four Mn³⁺ ions (S=2). As the manganese atoms in Mn₈₄ are all bridged by O^2- or MeO^- groups, strong pairwise exchange interactions between these manganese atoms are expected. Even though the magnetic susceptibility of this system has been measured experimentally, its electronic-magnetic structure and spin-spin couplings remain unknown. In this work, we investigate these interactions using first-principles calculations, from which a Heisenberg model is developed. The exchange coupling constants are extracted by fitting to the total energies of different spin configurations of Mn₈₄. In addition, we compute the magnetic anisotropy energy by including spin-orbital couplings.

March 17, 2021, 1:18 PM – March 17, 2021, 1:30 PM

Presenters

Dian-Teng Chen

Department of Physics, Center for Molecular Magnetic Quantum Materials and Quantum Theory Project, University of Florida, University of Florida

Authors

Dian-Teng Chen

Department of Physics, Center for Molecular Magnetic Quantum Materials and Quantum Theory Project, University of Florida, University of Florida
Henry F Schurkus

California Institute of Technology
Matthew J O'Rourke

California Institute of Technology
Ashlyn R Hale

University of Florida
George Christou

Univ of Florida, University of Florida
Garnet Chan

Caltech, California Institute of Technology
Hai-Ping Cheng

University of Florida, Department of Physics, Center for Molecular Magnetic Quantum Materials and Quantum Theory Project, University of Florida, Department of Physics, University of Florida, Physics, University of Florida