Regensburg 2025 – wissenschaftliches Programm

Bereiche | Tage | Auswahl | Suche | Aktualisierungen | Downloads | Hilfe

HL: Fachverband Halbleiterphysik

HL 25: Poster 2D Materials: Electronic Structure and Exitations (joint session O/HL)

HL 25.5: Poster

Dienstag, 18. März 2025, 13:30–15:30, P3

Polarons in single-layer MoS₂ via downfolding approach to the coupling of electronic and nuclear degrees of freedom — •Laura Pätzold¹, Camiel van Efferen², Arne Schobert¹, Tfyeche Y. Tounsi², Michael Winter¹, Mark Georger², Affan Safeer², Christian Krämer², Jeison Fischer², Jan Berges³, Thomas Michely², Roberto Mozara¹, Wouter Jolie², and Tim O. Wehling^1,4 — ¹U Hamburg — ²U Köln — ³U Bremen — ⁴The Hamburg Centre for Ultrafast Imaging

A polaron is a quasiparticle describing a localized bound state resulting from the interaction of charge carriers with lattice vibrations. Though they are a well-studied phenomenon, experimental observations of polarons in 2D crystals are sparse. Here, we present the theoretical analysis of polaronic distortions in n-doped single-layer MoS₂ via a downfolding approach with linear electron-lattice coupling based on density functional theory calculations [1]. With this, a multi-polaronic distortion, caused by a renormalized M-point phonon, can be stabilized on supercells of up to 18×18. We compare our results to scanning tunneling microscopy measuremens obtained on n-doped single-layer MoS₂, which support the existence of polarons emerging from the coupling of non-polar zone-boundary phonons to Bloch electrons. This tunneling into the vibrationally coupled polaronic states is visible through evenly spaced peaks around the Fermi energy in the differential conductance, whose spacing matches the frequency of the M-point phonon responsible for the multi-polaronic distortion in our simulations.

[1] A. Schobert et al., SciPost Phys. 16, 046 (2024)

Keywords: MoS2; Polarons; Downfolding