Add to ORKGWe formulate a low energy effective Hamiltonian to study superlattices in bilayer graphene (BLG) using a minimal model which supports quadratic band touching points. We show that a one dimensional (1D) periodic modulation of the chemical potential or the electric field perpendicular to the layers leads to the generation of zero-energy anisotropic massless Dirac fermions and finite energy Dirac points with tunable velocities. The electric field superlattice maps onto a coupled chain model comprised of ``topological'' edge modes. 2D superlattice modulations are shown to lead to gaps on the mini-Brillouin zone boundary but do not, for certain symmetries, gap out the quadratic band touching point. Such potential variations, induced by impuritie...
Letter.-- et al.Superlattices have attracted great interest because their use may make it possible t...
Graphene superlattices have attracted much research interest in the last years, since it is possible...
We study the electronic band structures of massless Dirac fermions in symmetrical graphene superlatt...
We study the electronic and transport properties of a graphene-based superlattice theoretically by u...
We investigate the electronic band structure and transport properties of periodically alternating mo...
We review recent work on superlattices in monolayer and bilayer graphene. We high-light the role of ...
We review the energy spectrum and transport properties of several types of one-dimensional superlatt...
Superlattices have attracted great interest because their use may make it possible to modify the spe...
The primary subject of this thesis is graphene and how the rudimentary attributes of its charge carr...
The electronic structure of a graphene superlattice composed by two periodic regions with different ...
The primary subject of this thesis is graphene and how the rudimentary attributes of its charge carr...
Electrostatic superlattices have been known to significantly modify the electronic structure of low-...
We study the band structure of graphene\u2019s Dirac-Weyl quasiparticles in a one-dimensional magnet...
We study the band structure of graphene’s Dirac-Weyl quasiparticles in a one-dimensional magnetic su...
We employ the tight binding model to describe the electronic band structure of bilayer graphene and ...
Letter.-- et al.Superlattices have attracted great interest because their use may make it possible t...
Graphene superlattices have attracted much research interest in the last years, since it is possible...
We study the electronic band structures of massless Dirac fermions in symmetrical graphene superlatt...
We study the electronic and transport properties of a graphene-based superlattice theoretically by u...
We investigate the electronic band structure and transport properties of periodically alternating mo...
We review recent work on superlattices in monolayer and bilayer graphene. We high-light the role of ...
We review the energy spectrum and transport properties of several types of one-dimensional superlatt...
Superlattices have attracted great interest because their use may make it possible to modify the spe...
The primary subject of this thesis is graphene and how the rudimentary attributes of its charge carr...
The electronic structure of a graphene superlattice composed by two periodic regions with different ...
The primary subject of this thesis is graphene and how the rudimentary attributes of its charge carr...
Electrostatic superlattices have been known to significantly modify the electronic structure of low-...
We study the band structure of graphene\u2019s Dirac-Weyl quasiparticles in a one-dimensional magnet...
We study the band structure of graphene’s Dirac-Weyl quasiparticles in a one-dimensional magnetic su...
We employ the tight binding model to describe the electronic band structure of bilayer graphene and ...
Letter.-- et al.Superlattices have attracted great interest because their use may make it possible t...
Graphene superlattices have attracted much research interest in the last years, since it is possible...
We study the electronic band structures of massless Dirac fermions in symmetrical graphene superlatt...