Electron-mediated anharmonicity and its role in the Raman spectrum of graphene

Publication date

2025-04-29

Authors

Erhardt, Nina Girotto
Castellano, Aloïs
Batista, J. P.Alvarinhas
Bianco, Raffaello
Lončarić, Ivor
Verstraete, Matthieu JeanORCID 0000-0001-6921-5163ISNI 0000000449908861
Novko, Dino

Editors

Advisors

Supervisors

Document Type

Article
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cc_by

Abstract

The Raman active G mode in graphene exhibits a strong coupling to electrons, yet the comprehensive treatment of this interaction in the calculation of its temperature-dependent Raman spectrum remains incomplete. In this study, we calculate the temperature dependence of the G-mode frequency and linewidth, and successfully explain the experimental trend by accounting for the contributions arising from the first-order electron-phonon coupling, electron-mediated phonon-phonon coupling, and standard lattice anharmonicity. The generality of our approach enables its broad applicability to study phonon dynamics in materials where both electron-phonon coupling and anharmonicity are important.

Keywords

Modelling and Simulation, General Materials Science, Mechanics of Materials, Computer Science Applications

Citation

Erhardt, N G, Castellano, A, Batista, J P A, Bianco, R, Lončarić, I, Verstraete, M J & Novko, D 2025, 'Electron-mediated anharmonicity and its role in the Raman spectrum of graphene', npj Computational Materials, vol. 11, no. 1, 114. https://doi.org/10.1038/s41524-025-01610-9