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Electro-absorption of silicene and bilayer graphene quantum dots

Abdelsalam, H.; Talaat, M.H.; Lukyanchuk, I.; Portnoi, M.E.; Saroka, Vasil
Journal article, Peer reviewed
Published version
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J.+Appl.+Phys.+120%281%29%2C+014304+%282016%29.pdf (3.092Mb)
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http://hdl.handle.net/11250/2581454
Utgivelsesdato
2016
Metadata
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  • Publikasjoner fra CRIStin - NTNU [20946]
Originalversjon
Journal of Applied Physics. 2016, 120 (1), 014304-1-014304-9.   10.1063/1.4955222
Sammendrag
We study numerically the optical properties of low-buckled silicene and AB-stacked bilayer graphene quantum dots subjected to an external electric field, which is normal to their surface. Within the tight-binding model, the optical absorption is calculated for quantum dots, of triangular and hexagonal shapes, with zigzag and armchair edge terminations. We show that in triangular silicene clusters with zigzag edges a rich and widely tunable infrared absorption peak structure originates from transitions involving zero energy states. The edge of absorption in silicene quantum dots undergoes red shift in the external electric field for triangular clusters, whereas blue shift takes place for hexagonal ones. In small clusters of bilayer graphene with zigzag edges the edge of absorption undergoes blue/red shift for triangular/hexagonal geometry. In armchair clusters of silicene blue shift of the absorption edge takes place for both cluster shapes, while red shift is inherent for both shapes of the bilayer graphene quantum dots.
Utgiver
AIP Publishing
Tidsskrift
Journal of Applied Physics

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