Add to ORKGBilayer graphene (BLG) offers a rich platform for broken-symmetry states stabilized by interactions. In this work, we study the phase diagram of BLG in the quantum Hall regime at filling factor ν = 0 within the Hartree-Fock approximation. In the simplest noninteracting situation, this system has eight (nearly) degenerate Landau levels near the Fermi energy, characterized by spin, valley, and orbital quantum numbers. We incorporate in our study two effects not previously considered: (i) the nonperturbative effect of trigonal warping in the single-particle Hamiltonian, and (ii) short-range SU(4) symmetry-breaking interactions that distinguish the energetics of the orbitals. We find within this model a rich set of phases, including ferromagnet...
Bilayer graphene exhibits a rich phase diagram in the quantum Hall regime, arising from a multitude ...
The high magnetic field electronic structure of bilayer graphene is enhanced by the spin, valley iso...
We present an exact diagonalization study of bilayer quantum Hall systems at filling factor ν = 2 in...
We devote this work to the study of the mean-field phase diagram of the ν = 0 quantum Hall state in ...
We reexamine the nature of the ground states of bilayer graphene at odd integer filling factors with...
Twisted bilayer graphene offers a unique bilayer two-dimensional-electron system where the layer sep...
Quantum Hall systems have a one-body energy spectrum consisting of dispersion-less Landau levels. El...
We investigate interaction-induced valley domain walls in bilayer graphene in the $\nu = 0$ quantum ...
textIn a strong magnetic field, the psuedospin chirality of bilayer graphene’s low energy bands resu...
Symmetry-breaking in a quantum system often leads to complex emergent behavior. In bilayer graphene ...
The high magnetic field electronic structure of bilayer graphene is enhanced by the spin, valley iso...
Graphene is a member of the family of two-dimensional materials. Apart from the familiar spin degree...
The charge carriers in bilayer graphene obey an electron-hole symmetric dispersion at zero magnetic ...
The focus of this thesis is the dynamical symmetry breaking in monolayer and bilayer graphene in a m...
The high magnetic field electronic structure of bilayer graphene is enhanced by the spin, valley iso...
Bilayer graphene exhibits a rich phase diagram in the quantum Hall regime, arising from a multitude ...
The high magnetic field electronic structure of bilayer graphene is enhanced by the spin, valley iso...
We present an exact diagonalization study of bilayer quantum Hall systems at filling factor ν = 2 in...
We devote this work to the study of the mean-field phase diagram of the ν = 0 quantum Hall state in ...
We reexamine the nature of the ground states of bilayer graphene at odd integer filling factors with...
Twisted bilayer graphene offers a unique bilayer two-dimensional-electron system where the layer sep...
Quantum Hall systems have a one-body energy spectrum consisting of dispersion-less Landau levels. El...
We investigate interaction-induced valley domain walls in bilayer graphene in the $\nu = 0$ quantum ...
textIn a strong magnetic field, the psuedospin chirality of bilayer graphene’s low energy bands resu...
Symmetry-breaking in a quantum system often leads to complex emergent behavior. In bilayer graphene ...
The high magnetic field electronic structure of bilayer graphene is enhanced by the spin, valley iso...
Graphene is a member of the family of two-dimensional materials. Apart from the familiar spin degree...
The charge carriers in bilayer graphene obey an electron-hole symmetric dispersion at zero magnetic ...
The focus of this thesis is the dynamical symmetry breaking in monolayer and bilayer graphene in a m...
The high magnetic field electronic structure of bilayer graphene is enhanced by the spin, valley iso...
Bilayer graphene exhibits a rich phase diagram in the quantum Hall regime, arising from a multitude ...
The high magnetic field electronic structure of bilayer graphene is enhanced by the spin, valley iso...
We present an exact diagonalization study of bilayer quantum Hall systems at filling factor ν = 2 in...