Dresden 2026 – wissenschaftliches Programm

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FM: Fachverband Funktionsmaterialien

FM 11: Poster Session Functional Materials

FM 11.7: Poster

Dienstag, 10. März 2026, 18:00–20:30, P4

Topology and Bonding: A bonding-based approach to topological insulators via Atom Probe Tomography — •Elias Hildebrand¹, Jan Köttgen², Yuan Yu¹, and Matthias Wuttig^1,2 — ¹I. Institute of Physics (IA), RWTH Aachen University, Germany — ²Peter Grünberg Institute - JARA-Institute Energy Efficient Information Technology (PGI-10), Jülich, Germany

Ever since the discovery of the quantum Hall effect, interest in topological phases of matter has steadily increased. Initially attributed to spin-orbit coupling, the underlying guiding principle causing these topological phases of matter has been a topic of ongoing discussion.

Here, we want to propose a bonding-based approach to explain nontrivial topological states. The experimental foundation for this connection is established through Atom Probe Tomography (APT). While APT is primarily employed for microstructural analysis, it has recently been proposed as a tool capable of identifying different bonding mechanisms.

Within this method, most topologically nontrivial materials also exhibit distinct bond-breaking behaviour corresponding to their characteristic bonding mechanisms. Here, different materials are investigated regarding their topological nature and behaviour in the APT.

Consequently, APT can be established as an experimental method for identifying topological phases of matter and as an empirical argument highlighting the significance of bonding in understanding the fundamental principles governing topological materials.

Keywords: Atom Probe Tomography; topological insulators; topological semimetals; chemical bonding