Graphene can be turned into a semimetal with broken time-reversal symmetry by adding a valley-dependent pseudo-scalar potential that shifts the Dirac point energies in opposite directions, as in the modified Haldane model. We consider a bilayer obtained by stacking two time-reversed copies of the modified Haldane model, where conduction and valence bands cross to give rise to a nodal line in each valleys. In the AB stacking, the interlayer hopping lifts the degeneracy of the nodal lines and induces a band repulsion, leading surprisingly to a chiral insulator with a Chern number $C=\pm2$. As a consequence a pair of chiral edge states appears at the boundaries of the ribbon bilayer geometry. In contrast, the AA stacking does not show nontrivi...
24 pages, 16 figures, minor modifications and references addedInternational audienceThe realization ...
We propose models of twisted multilayer graphene that exhibit exactly flat Bloch bands with arbitrar...
When the twist angle between two layers of graphene is approximately 1.1°, interlayer tunnelling and...
Graphene can be turned into a semimetal with broken time-reversal symmetry by adding a valley-depend...
Paper, 8 Figures + Supplementary MaterialInternational audienceWe reveal a proximity effect between ...
We have studied the evolution of the topological properties of a band-engineered AB-stacked bilayer ...
We study the many-body physics in twisted bilayer graphene coupled to periodic driving of a circular...
Charge carriers in magic angle graphene come in eight flavors described by a combination of their sp...
Twisted double bilayer graphene (tDBG) has emerged as a rich platform for studying strongly correlat...
We present a model for a Chern insulator on the square lattice with complex first- and second-neighb...
We consider magic-angle twisted bilayer graphene (TBG) at filling $\nu=+3$, where experiments have o...
We prove the existence of higher-order topological insulators with protected chiral hinge modes in q...
We study a tight-binding model on the honeycomb lattice of chiral d-wave superconductivity that brea...
The advent of topological phases of matter revealed a variety of observed boundary phenomena, such a...
The breaking of time-reversal symmetry is a crucial ingredient to topological bands. It can occur in...
24 pages, 16 figures, minor modifications and references addedInternational audienceThe realization ...
We propose models of twisted multilayer graphene that exhibit exactly flat Bloch bands with arbitrar...
When the twist angle between two layers of graphene is approximately 1.1°, interlayer tunnelling and...
Graphene can be turned into a semimetal with broken time-reversal symmetry by adding a valley-depend...
Paper, 8 Figures + Supplementary MaterialInternational audienceWe reveal a proximity effect between ...
We have studied the evolution of the topological properties of a band-engineered AB-stacked bilayer ...
We study the many-body physics in twisted bilayer graphene coupled to periodic driving of a circular...
Charge carriers in magic angle graphene come in eight flavors described by a combination of their sp...
Twisted double bilayer graphene (tDBG) has emerged as a rich platform for studying strongly correlat...
We present a model for a Chern insulator on the square lattice with complex first- and second-neighb...
We consider magic-angle twisted bilayer graphene (TBG) at filling $\nu=+3$, where experiments have o...
We prove the existence of higher-order topological insulators with protected chiral hinge modes in q...
We study a tight-binding model on the honeycomb lattice of chiral d-wave superconductivity that brea...
The advent of topological phases of matter revealed a variety of observed boundary phenomena, such a...
The breaking of time-reversal symmetry is a crucial ingredient to topological bands. It can occur in...
24 pages, 16 figures, minor modifications and references addedInternational audienceThe realization ...
We propose models of twisted multilayer graphene that exhibit exactly flat Bloch bands with arbitrar...
When the twist angle between two layers of graphene is approximately 1.1°, interlayer tunnelling and...
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