Anomalous Non-Hydrogenic Exciton Series in 2D Materials on High-\(\kappa\) Dielectric Substrates

Engineering of the dielectric environment represents a powerful strategy to control the electronic and optical properties of two-dimensional (2D) materials without compromising their structural integrity. Here we show that the recent development of high-\(\kappa\) 2D materials present new opportunit...

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Bibliographic Details
Published in:arXiv.org 2020-09
Main Authors: Riis-Jensen, Anders C, Gjerding, Morten N, Russo, Saverio, Thygesen, Kristian S
Format: Article
Language:English
Subjects:
Dielectrics
Electron-hole interaction
Excitons
First principles
Holes (electron deficiencies)
Optical properties
Rydberg series
Screening
Structural integrity
Substrates
Two dimensional materials
Two dimensional models
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Summary:Engineering of the dielectric environment represents a powerful strategy to control the electronic and optical properties of two-dimensional (2D) materials without compromising their structural integrity. Here we show that the recent development of high-\(\kappa\) 2D materials present new opportunities for dielectric engineering. By solving a 2D Mott-Wannier exciton model for WSe\(_2\) on different substrates using a screened electron-hole interaction obtained from first principles, we demonstrate that the exciton Rydberg series changes qualitatively when the dielectric screening within the 2D semiconductor becomes dominated by the substrate. In this regime, the distance dependence of the screening is reversed and the effective screening increases with exciton radius, which is opposite to the conventional 2D screening regime. Consequently, higher excitonic states become underbound rather than overbound as compared to the Hydrogenic Rydberg series. Finally, we derive a general analytical expression for the exciton binding energy of the entire 2D Rydberg series
ISSN:2331-8422
DOI:10.48550/arxiv.2009.12317