Email this article Tunable Excitons in Bilayer Graphene with Opened Energy Gap
- Authors: Avetisyan A.A.1, Djotyan A.P.1, Moulopoulos K.1
-
Affiliations:
- Department of Physics
- Issue: Vol 81, No 6 (2018)
- Pages: 799-803
- Section: Elementary Particles and Fields
- URL: https://journals.rcsi.science/1063-7788/article/view/196022
- DOI: https://doi.org/10.1134/S1063778818060042
- ID: 196022
Cite item
Open Access
Access granted
Subscription Access
Abstract
In this work we study excitonic absorption in bilayer graphene where an energy gap is opened by a static perpendicular electric field. On the basis of the tight-binding approach and second quantized Hamiltonian the linearized quantum kinetic equations for the density matrix are obtained. It is shown that the exciton binding energy and intensity of the excitonic absorption can be tuned by changing the value of the gap and tight-binding parameters. It is found that the account of circular asymmetry of the energy bands in bilayer graphene leads to a strong increase of exciton binding energy and excitonic absorption.
About the authors
A. A. Avetisyan
Department of Physics
Author for correspondence.
Email: artakav@ysu.am
Armenia, Yerevan
A. P. Djotyan
Department of Physics
Email: artakav@ysu.am
Armenia, Yerevan
K. Moulopoulos
Department of Physics
Email: artakav@ysu.am
Cyprus, Nicosia
Supplementary files
