Add to ORKGWe present numerical calculations of a tight-binding model applied to a finite square lattice in the presence of a perpendicular magnetic field. The persistent current associated with each eigenstate is calculated, the chirality of which is determined by whether the eigenstate exists within the bulk or localised to the edges of the lattice. This treatment allows us to extract oscillations in the magnetization, which are analogous to de Haas-van Alphen oscillations. We consider the influence of short range disorder and long range potential modulations on these systems
Electrons moving under the effects of a two dimensional periodic potential and a magnetic field perp...
The electronic properties of a square lattice under an applied perpendicular magnetic field in the p...
The ubiquitous Hofstadter butterfly describes a variety of systems characterized by incommensurable ...
We present numerical calculations of a tight-binding model applied to a finite square lattice in the...
We present the results of numerical calculations of the energy levels and eigenfunctions of finite s...
Electronic bands in a square lattice when subjected to a perpendicular magnetic field form the Hofst...
International audienceThe energy spectrum of a tight-binding Hamiltonian is studied for the two-dime...
The properties of the Hofstadter butterfly, a fractal, self-similar spectrum of a two-dimensional el...
The Hofstadter butterfly of lattice electrons in a strong magnetic field is a cornerstone of condens...
We consider the dynamics of a charged particle in a finite along the x-direction square lattice in t...
19 pages, 20 figuresInternational audienceWe use a numerical implementation of the strong disorder r...
We investigate theoretically the spectrum of a graphenelike sample (honeycomb lattice) subjected to ...
We present the first numerical studies of the disorder effect on the recently proposed intrinsic spi...
We show that the new quantum oscillations of the magnetization can occur when the Fermi surface cons...
We investigate the dynamics of neutral atoms in a 2D optical lattice which traps two distinct intern...
Electrons moving under the effects of a two dimensional periodic potential and a magnetic field perp...
The electronic properties of a square lattice under an applied perpendicular magnetic field in the p...
The ubiquitous Hofstadter butterfly describes a variety of systems characterized by incommensurable ...
We present numerical calculations of a tight-binding model applied to a finite square lattice in the...
We present the results of numerical calculations of the energy levels and eigenfunctions of finite s...
Electronic bands in a square lattice when subjected to a perpendicular magnetic field form the Hofst...
International audienceThe energy spectrum of a tight-binding Hamiltonian is studied for the two-dime...
The properties of the Hofstadter butterfly, a fractal, self-similar spectrum of a two-dimensional el...
The Hofstadter butterfly of lattice electrons in a strong magnetic field is a cornerstone of condens...
We consider the dynamics of a charged particle in a finite along the x-direction square lattice in t...
19 pages, 20 figuresInternational audienceWe use a numerical implementation of the strong disorder r...
We investigate theoretically the spectrum of a graphenelike sample (honeycomb lattice) subjected to ...
We present the first numerical studies of the disorder effect on the recently proposed intrinsic spi...
We show that the new quantum oscillations of the magnetization can occur when the Fermi surface cons...
We investigate the dynamics of neutral atoms in a 2D optical lattice which traps two distinct intern...
Electrons moving under the effects of a two dimensional periodic potential and a magnetic field perp...
The electronic properties of a square lattice under an applied perpendicular magnetic field in the p...
The ubiquitous Hofstadter butterfly describes a variety of systems characterized by incommensurable ...