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O: Fachverband Oberflächenphysik

O 94: 2D Materials V: Novel Systems

O 94.1: Vortrag

Freitag, 5. April 2019, 10:30–10:45, H9

Orbital texture in the band structure of a new binary honeycomb lattice AgTe — •Maximilian Ünzelmann¹, Hendrik Bentmann¹, Tilman Kißlinger², Lutz Hammer², M. Alexander Schneider², Thomas Fauster², Philipp Eck³, Domenico Di Sante³, Giorgio Sangiovanni³, and Friedrich Reinert¹ — ¹Experimentelle Physik 7, Universität Würzburg — ²Lst. f. Festkörperphysik, Universität Erlangen-Nürnberg — ³Theoretische Physik 1, Universität Würzburg

In recent years two-dimensional (2D) materials like honeycomb-structured thin films or transition metal dichalcogenides attracted a lot of attention in solid state physics. Lattice symmetry as well as strong spin-orbit coupling leads to phenomena like non-trivial band topology (1,2). Therefore it is important to gain knowledge about the orbital character of the involved valance-state wave functions.
Here we will present a new binary honeycomb lattice namely AgTe, whose structure is realized on a Ag(111)-substrate. Using angle-resolved photoemission we will determine the 2D band structure of the AgTe layer. By means of light-polarization dependent measurements, anisotropies in the band dispersion and linear dichroism we analyze the orbital character of the valence bands. Based on the determined orbital symmetry we discuss a possible topological band inversion in AgTe.

(1) F. Reis et al., Science 357, 287 (2017)
(2) S. Tang et al., Nature Physics 13, 683 (2017)