Bound states and magnetic field induced valley splitting in gate-tunable graphene quantum dots
The magnetic field dependence of energy levels in gapped single-layer and bilayer
graphene quantum dots (QDs) defined by electrostatic gates is studied analytically in terms …
graphene quantum dots (QDs) defined by electrostatic gates is studied analytically in terms …
Bound states and magnetic field induced valley splitting in gate-tunable graphene quantum dots
P Recher, J Nilsson, G Burkard… - Physical Review …, 2009 - ui.adsabs.harvard.edu
The magnetic field dependence of energy levels in gapped single-layer and bilayer
graphene quantum dots (QDs) defined by electrostatic gates is studied analytically in terms …
graphene quantum dots (QDs) defined by electrostatic gates is studied analytically in terms …
Bound states and magnetic field-induced valley splitting in gate-tunable graphene quantum dots
P Recher, J Nilsson, G Burkard, B Trauzettel - arXiv preprint arXiv …, 2008 - arxiv.org
The magnetic field dependence of energy levels in gapped single-and bilayer graphene
quantum dots (QDs) defined by electrostatic gates is studied analytically in terms of the Dirac …
quantum dots (QDs) defined by electrostatic gates is studied analytically in terms of the Dirac …
[PDF][PDF] Bound states and magnetic field-induced valley splitting in gate-tunable graphene quantum dots
P Recher, J Nilsson, G Burkard… - arXiv preprint arXiv …, 2008 - researchgate.net
Graphene is one of the most promising materials for future nano-electronics. 1, 2 This is
related to its truly twodimensional character yielding perfect electron confinement in one …
related to its truly twodimensional character yielding perfect electron confinement in one …
[PDF][PDF] Bound states and magnetic field induced valley splitting in gate-tunable graphene quantum dots
P Recher, J Nilsson, G Burkard… - … REVIEW B Phys …, 2009 - theo.physik.uni-konstanz.de
Graphene is one of the most promising materials for future nanoelectronics. 1, 2 This is
related to its truly twodimensional character, yielding perfect electron confinement in one …
related to its truly twodimensional character, yielding perfect electron confinement in one …
[PDF][PDF] Bound states and magnetic field induced valley splitting in gate-tunable graphene quantum dots
P Recher, J Nilsson, G Burkard… - … REVIEW B Phys …, 2009 - theorie.physik.uni-konstanz.de
Graphene is one of the most promising materials for future nanoelectronics. 1, 2 This is
related to its truly twodimensional character, yielding perfect electron confinement in one …
related to its truly twodimensional character, yielding perfect electron confinement in one …
[PDF][PDF] Bound states and magnetic field induced valley splitting in gate-tunable graphene quantum dots
P Recher, J Nilsson, G Burkard… - … REVIEW B Phys …, 2009 - theo.physik.uni-konstanz.de
Graphene is one of the most promising materials for future nanoelectronics. 1, 2 This is
related to its truly twodimensional character, yielding perfect electron confinement in one …
related to its truly twodimensional character, yielding perfect electron confinement in one …
[PDF][PDF] Bound states and magnetic field induced valley splitting in gate-tunable graphene quantum dots
P Recher, J Nilsson, G Burkard… - PHYSICAL REVIEW B …, 2009 - scholar.archive.org
Graphene is one of the most promising materials for future nanoelectronics. 1, 2 This is
related to its truly twodimensional character, yielding perfect electron confinement in one …
related to its truly twodimensional character, yielding perfect electron confinement in one …
Bound states and magnetic field-induced valley splitting in gate-tunable graphene quantum dots
P Recher, J Nilsson, G Burkard, B Trauzettel - 2009 - kops.uni-konstanz.de
The magnetic field dependence of energy levels in gapped single-and bilayer graphene
quantum dots (QDs) defined by electrostatic gates is studied analytically in terms of the Dirac …
quantum dots (QDs) defined by electrostatic gates is studied analytically in terms of the Dirac …
[引用][C] Bound states and magnetic field induced valley splitting in gate-tunable graphene quantum dots
P Recher, J Nilsson, G Burkard, B Trauzettel - Physical Review B, 2009 - cir.nii.ac.jp
Bound states and magnetic field induced valley splitting in gate-tunable graphene quantum
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