Comparison of band -fitting and Wannier-based model construction for WSe2

Autor: Javier Junquera, James Sifuna, Pablo García-Fernández, George Amolo, George S. Manyali
Přispěvatelé: Universidad de Cantabria
Rok vydání: 2020
Předmět:
Zdroj: MRS Advances volume 5, pages 2281-2290 (2020)
UCrea Repositorio Abierto de la Universidad de Cantabria
Universidad de Cantabria (UC)
MRS Advances, 2020, 5(44), 2281-2290
ISSN: 2059-8521
Popis: Transition metal dichalcogenide materials $MX_2 (M=Mo,W;X=S,Se)$ are being thoroughly studied due to their novel two-dimensional structure, that is associated with exceptional optical and transport properties. From a computational point of view, Density Functional Theory simulations perform very well in these systems and are an indispensable tool to predict and complement experimental results. However, due to the time and length scales where even the most efficient DFT implementations can reach today, this methodology suffers of stringent limitations to deal with finite temperature simulations or electron-lattice coupling when studying excitation states: the unit cells required to study, for instance, systems with thermal fluctuations or large polarons would require a large computational power. Multi-scale techniques, like the recently proposed Second Principles Density Functional Theory, can go beyond these limitations but require the construction of tight-binding models for the systems under investigation. In this work, we compare two such methods to construct the bands of WSe$_2$. In particular, we compare the result of (i) Wannier-based model construction with (ii) the band fitting method of Liu and co-workers where the top of the valence band and the bottom of the conduction band are modeled by three bands symmetrized to have mainly Tungsten $d_{z^2}$, $d_{xy}$ and $d_{x^2-y^2}$ character. Our results emphasize the differences between these two approaches and how band-fitting model construction leads to an overestimation of the localization of the real-space basis in a tight-binding representation.
7 pages, 6 figures
Databáze: OpenAIRE
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