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DS: Fachverband Dünne Schichten

DS 21: Optical Analysis of Thin Films

DS 21.5: Vortrag

Freitag, 13. März 2026, 10:45–11:00, REC/C213

Spectroscopic Imaging Ellipsometry at Cryogenic Temperatures: Uncovering a Structural Phase Change in 2D Polar Ga — •Jakob Henz¹, Arpit Jain², Joshua A. Robinson², Su Y. Quek³, and Ursula Wurstbauer³ — ¹University of Münster — ²Center for 2DLM, PennState University — ³Centre for Advanced 2D Materials, National University of Singapore

2D polar metals are a class of atomically thin 2D materials, realized by confinement heteroepitaxial growth (CHet). Hereby, metal atoms are intercalated between a graphene and 6H-SiC interface¹. This results in a large area, stable 2D metal film with a bonding gradient ranging from covalent over metallic to a vdW-interaction within only two to three atomic layers².

Here, we use cryogenic spectroscopic imaging ellipsometry to investigate the temperature dependent light-matter interaction in bilayer 2D polar gallium down to 1 K.

Contrary to theoretical expectations¹, we find a change in the local dielectric response of the material from a homogenous behavior at room temperature to a heterogenous regime at low temperatures, characterized by two absorption peaks localized to distinct surface areas on the sample³. This change is interpreted to indicate a structural phase transition in the material.
1 N. Briggs et al., Nat. Mater. 19.6, 637-643 (2020).
2 M. A. Steves et al., Nano Letters 20.11, 8312-8318 (2020).
3 J. Henz et al., in preparation (2025).

Keywords: Ellipsometry; SIE; Imaging; 2D Materials