Interlayer Magnetism in Fe3-xGeTe2

September 11, 2020

(a) Ferromagnetic interlayer ordering in Fe3GeTe2. (b) Neutron powder diffraction of Fe2.9GeTe2. (c) Experimental scanning tunneling microscopy (STM) image where dark regions correspond to Fe-II vacancies.
(d) STM simulation without electron interaction correction. (e) STM simulation with electron interaction correction.

Scientific Achievement

Resolved the interlayer ferromagnetic ordering in the van der Waals layered material, Fe_3-xGeTe₂.

Significance and Impact

Interlayer magnetic ordering controls many physical properties such as topology, magnetoresistance, piezoelectricity, and second harmonic generation.

Research Details

- Interlayer ordering is shown to be ferromagnetic based on neutron diffraction, scanning tunneling microscopy (STM), spin-polarized STM measurements, and density functional theory calculations.

- Fe_3-xGeTe₂ is a quasi 2D magnet with a relatively high transition temperature and a large anisotropy hosting intriguing properties, including skyrmionic bubbles and topological nodal lines.

X. Kong, G. D. Nguyen, J. Lee, C. Lee, S. Calder, A. F. May, Z. Gai, A.-P. Li, L. Liang, and T. Berlijn, "Interlayer Magnetism in Fe_3-xGeTe₂," Phys. Rev. Materials 4, 094403 (2020).