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TT: Fachverband Tiefe Temperaturen

TT 7: Surface Magnetism and Topological Insulators (joint session MA/TT)

TT 7.3: Vortrag

Montag, 9. März 2026, 10:00–10:15, POT/0351

Image-potential states on a 2D Gr-ferromagnet hybrid: enhancing spin and stacking sensing — Maciej Bazarnik^1,2 and •Anika Schlenhoff^1,2 — ¹Institute of Physics, University of Münster, Germany — ²Department of Physics, University of Hamburg, Germany

With the increasing research interest in 2D materials, image-potential states (IPSs) have regained attention as sensitive probes, e.g. for a charge transfer at buried graphene(Gr)-metal interfaces. For a Gr-ferromagnet hybrid, the question arises how IPSs sense a respective spin transfer laterally varying within the moiré heterostructure.

Here, we present spin-resolved scanning tunneling microscopy and spectroscopy studies on Fe intercalated Gr/Ir(111), that show the IPSs’ sensitivity to the spatial variation of the Gr-Fe distance, and of the interfacial charge and spin transfer within the moiré unit cell [1]. A stacking contrast between fcc and hcp sites, indistinguishable in the direct tunneling mode, is provided by the IPSs. We observe a moiré-site- and energy-dependent spin-polarization of the IPSs that can be mapped across the entire moiré unit cell. Unlike the electronic states around the Fermi energy, the lowest IPSs are found to exhibit a high spin-polarization on the on-top sites attributed to their interfacial character at the respective Gr-Fe distance. Since the physisorbed Gr is only weakly spin-polarized on these sites, our work demonstrates that the lowest order IPSs can be used to locally sense the spin density at magnetic interfaces buried by a nonmagnetic passivation layer.
[1] M. Bazarnik and A. Schlenhoff, ACS Nano 19, 25812 (2025).

Keywords: graphene; magnetism; STM/STS; buried interface; moiré structure