Dresden 2026 – scientific programme

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MA: Fachverband Magnetismus

MA 43: Spin-Dependent Phenomena in 2D

MA 43.5: Talk

Thursday, March 12, 2026, 10:45–11:00, POT/0112

Spin-polarized scanning tunneling microscopy of antiferromagnetic spin ordering in a topological Hall material — Alexina Ollier^1,2, Valeria Sheina^1,2, Seik Pak⁴, Corina Urdaniz^1,2, Muskan Sande^1,3, Soonhyung Lee^1,2, Lei Fang^1,2, Christoph Wolf^1,2, Woonghee Cho⁶, Pyeongjae Park⁷, Andreas Heinrich^1,3, Je-Geun Park⁶, Moon jip Park^4,5, and •Won-Jun Jang^1,2 — ¹Center for Quantum Nanoscience (QNS), Institute for Basic Science (IBS), Seoul, Korea — ²Ewha Womans University, Seoul, Korea — ³Department of Physics, Ewha Womans University, Seoul, Korea — ⁴Department of Physics, Hanyang University, Seoul, Korea — ⁵Research Institute for Natural Science and High Pressure, Hanyang University, Seoul, Korea — ⁶Department of Physics and Astronomy, Seoul National University, Seoul, Korea — ⁷Materials Science and Technology Division, Oak Ridge National Laboratory, Tennessee, USA

We report spin-polarized scanning tunneling microscopy measurements on Co1/3TaS2. STM images acquired with a conventional tip reveal the triangular atomic lattice of the surface, whereas SP-STM uncovers additional symmetry features directly linked to the spin-polarized electronic structure of TaS2 arising from the triple-Q magnetic order. The spin-dependent contrast observed with the SP tip confirms the presence of spin-polarized van Hove singularities, a hallmark of the non-coplanar magnetic state. These results demonstrate that SP-STM can directly probe the modified electronic structure arising from chiral magnetic textures in non-coplanar magnets.

Keywords: Spin-polarized STM; Noncoplanar spin ordering; Magnetic van der Waals material; Topological Hall material; Skyrmion