Dresden 2026 – wissenschaftliches Programm

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TT: Fachverband Tiefe Temperaturen

TT 59: 2D Materials V – Magnetic, spintronic, and topological properties (joint session HL/TT)

TT 59.6: Vortrag

Mittwoch, 11. März 2026, 16:45–17:00, POT/0081

Probing spin-orbit coupling in graphene/WSe₂ heterostructures by the circular photogalvanic effect — Ernst Knöckl, •Matthias Klein, Alexander Holleitner, and Christoph Kastl — Walter Schottky Institute, School of Natural Sciences, Technical University of Munich

We investigate proximity-induced spin–orbit coupling (SOC) in graphene/WSe₂ heterostructures using the circular photogalvanic effect (CPGE) as a symmetry-selective and experimentally accessible probe of spin–valley-locked band textures [1]. By measuring helicity-dependent photocurrents as a function of gate voltage, excitation energy, and device geometry, we aim to disentangle Rashba and valley-Zeeman SOC contributions and to extract their magnitude and sign as a function of the graphene–WSe₂ twist angle. The observed trends in CPGE sign reversals and scaling behavior provide quantitative indications of interfacial symmetry breaking and moiré-enhanced spin–valley coupling, supported by comparison to microscopic transport models. These results are expected to establish CPGE as a promising metrological probe of proximity SOC in 2D heterostructures and to complement ongoing efforts in twist-angle-dependent spin–orbit engineering in graphene/TMD systems [2,3].

[1] Kiemle, J., et al. ACS nano 16.8, 12338-12344 (2022)
[2] Yang, H., et al. Nat. Mater. 23, 1502-1508 (2024)
[3] Zhang, Y., et al. Natur 641, 625-631 (2025)

Keywords: spin-orbit coupling; proximity effect; twist angle; photocurrent