Warning: We observe an increase of emails from fake travel portals like . "travelhosting.co.uk". We never send links to such portals so be vigilant!

Neutrons for Science and Industry

Topological magnetic structures in MnGe: Neutron diffraction and symmetry analysis

by Dr Vladimir Pomjakushin (Laboratory for Neutron Scattering and Imaging (LNS), Paul Scherrer Institut (PSI))

PH HS 3 (Physics Department)


Physics Department

Show room on map

From new neutron powder diffraction experiments on the chiral cubic (P213) magnet manganese germanide (MnGe), we analyze all of the possible crystal symmetry-allowed magnetic superstructures [1]. The incommensurate propagation vectors k of the magnetic structure are found to be aligned with the [100] cubic axes, and correspond to a magnetic periodicity of about 30 Å at 1.8 K. Several maximal crystallographic symmetry magnetic structures are found to fit the data equally well and are presented. These include topologically nontrivial magnetic hedgehog and skyrmion structures in multi-k cubic or orthorhombic 3+3  and 3+2  dimensional magnetic superspace groups (MSSG), with either potentially responsible for topological Hall effect (THE).

The magnetic structures in MnGe are compared with topological magnetism in the candidate magnetic Weyl semimetal CeAlGe  [2], where the topological properties of a phase stable at intermediate magnetic fields parallel to the c axis are suggested by observation of the THE as well. CeAlGe has polar tetragonal I41md crystal symmetry with the magnetic structure based on two propagation vectors along [100] and [010] axes in tetragonal plane with periodicity about 70 Å. The multi-k structure is realised in maximal symmetry 3+2 dimensional tetragonal MSSG

Both 3+2 structures in MnGe and CeAlGe host lattices of magnetic particle-like objects called (anti)merons Q=±1/2 with half-integer topological numbers. Calculations show that in the external magnetic fields perpendicular to the propagation plane the total charge per magnetic cell abruptly changes from Q=0 to skyrmion-like charge |Q|=1 in accordance with is the experimental observation of the THE in the same field range.


[1] V. Pomjakushin, I. Plokhikh, J. S. White, Y. Fujishiro, N. Kanazawa, Y. Tokura, and E. Pomjakushina, Phys. Rev. B 107, 024410 (2023)

[2] P. Puphal, V. Pomjakushin, N. Kanazawa, V. Ukleev, D. J. Gawryluk, J. Ma, M. Naamneh, N. C. Plumb, L. Keller, R. Cubitt, E. Pomjakushina, and J. S. White, Phys. Rev. Lett. 124, 017202 (2020)

Organized by

Dr. Theresia Heiden-Hecht
Dr. Jitae Park

Hybrid Zoom link
VC Room link
password: 853708