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Size Quantization in Planar Graphene-Based Heterostructures: Pseudospin Splitting, Interface States, and Excitons

Author: A. A. Abrikosov
A. C. Ferrari
A. Dalgarno
A. H. C. Neto
A. I. Akhiezer
A. M. Tsvelik
A. Mattausch
A. P. Silin
A. P. Silin
A. P. Silin
A. R. Akhmerov
A. Rycerz
A. V. Kolesnikov
A. V. Kolesnikov
A. V. Kolesnikov
B. A. Volkov
B. G. Idlis
D. A. Abanin
D. A. B. Miller
D. C. Elias
D. Graf
D. Martoccia
D. Xiao
E. A. Andryushin
E. A. Andryushin
E. A. Andryushin
G. Giovannetti
G. W. Semenoff
I. Calizo
I. E. Tamm
I. Pletikosić
I. Zanella
J. L. Carcia-Pomar
J. M. Pereira Jr.
J. Tworzydo
K. S. Novoselov
K. S. Novoselov
L. A. Ponomarenko
L. Brey
L. Brey
L. E. Vorob’ev
L. V. Keldysh
M. Y. Han
P. V. Ratnikov
P. V. Ratnikov
R. Loudon
R. Saito
S. A. Brazovskii
S. G. Tikhodeev
S. G. Tikhodeev
S. Lebegue
S. Marchini
S. S. Schweber
S. V. Morozov
S. Y. Zhou
T. Ando
T. Ando
T. M. Rice
T. W. Appelquist
V. S. Babichenko
X. Du
X. Wang
Y. Zhang
Y.-W. Son
Yu. A. Bychkov
Yu. A. Bychkov
Yu. E. Lozovik
Yu. E. Lozovik
Z. H. Ni
Z. Z. Zhang
Publication venue: 'Pleiades Publishing Ltd'
Publication date: 07/08/2012
Field of study

A planar quantum-well device made of a gapless graphene nanoribbon with edges in contact with gapped graphene sheets is examined. The size-quantization spectrum of charge carriers in an asymmetric quantum well is shown to exhibit a pseudospin splitting. Interface states of a new type arise from the crossing of dispersion curves of gapless and gapped graphene materials. The exciton spectrum is calculated for a planar graphene quantum well. The effect of an external electric field on the exciton spectrum is analyzed.Comment: 15 pages, 14 figure

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