Add to ORKGThe discovery of graphene opened the way to an intriguing field in condensed matter: that of Dirac materials (DM). In these materials, electrons have a linear dispersion relation, making them a solid-state analoguos of relativistic massless particles. The possible realization of DM in three dimensions has drawed a lot of attention, since these systems are much more stable than their 2D cousins, e.g. graphene. In my research I focus on three dimensional DM and investigate their properties once an additional interaction term is added to the Hamiltonian. This latter has the effect of tilting the characteristic Weyl cones in the momentum space and breaks isotropy. We will investigate whether this symmetry breaking finds a signature in observabl...
International audienceThe pseudo-relativistic chiral electrons in 2D graphene and 3D topological sem...
Dirac materials have formed a thriving and prosperous direction in modern condensed matter physics. ...
Dirac materials have formed a thriving and prosperous direction in modern condensed matter physics. ...
Recently, the existence of Dirac/Weyl cones in three dimensional systems has been demonstrated exper...
Weyl and Dirac (semi)metals in three dimensions have robust gapless electronic band structures. Thei...
Recently, the existence of Dirac/Weyl cones in three dimensional systems has been demonstrated exper...
We investigate the effect of Coulomb interactions on the electromagnetic response of three-dimension...
We perform an exact renormalization group analysis of a fermionic system on a three-dimensional latt...
We investigate the effect of Coulomb interactions on the electromagnetic response of three-dimension...
We investigate the effect of Coulomb interactions on the electromagnetic response of three-dimension...
We investigate the effect of Coulomb interactions on the electromagnetic response of three-dimension...
International audienceWe study the conductivity of two-dimensional graphene-type materials with tilt...
We study the conductivity of two-dimensional graphene-type materials with tilted cones as well as th...
We study the conductivity of two-dimensional graphene-type materials with tilted cones as well as th...
Weyl semimetals are three-dimensional analogs of graphene with pointlike Fermi surfaces. Their linea...
International audienceThe pseudo-relativistic chiral electrons in 2D graphene and 3D topological sem...
Dirac materials have formed a thriving and prosperous direction in modern condensed matter physics. ...
Dirac materials have formed a thriving and prosperous direction in modern condensed matter physics. ...
Recently, the existence of Dirac/Weyl cones in three dimensional systems has been demonstrated exper...
Weyl and Dirac (semi)metals in three dimensions have robust gapless electronic band structures. Thei...
Recently, the existence of Dirac/Weyl cones in three dimensional systems has been demonstrated exper...
We investigate the effect of Coulomb interactions on the electromagnetic response of three-dimension...
We perform an exact renormalization group analysis of a fermionic system on a three-dimensional latt...
We investigate the effect of Coulomb interactions on the electromagnetic response of three-dimension...
We investigate the effect of Coulomb interactions on the electromagnetic response of three-dimension...
We investigate the effect of Coulomb interactions on the electromagnetic response of three-dimension...
International audienceWe study the conductivity of two-dimensional graphene-type materials with tilt...
We study the conductivity of two-dimensional graphene-type materials with tilted cones as well as th...
We study the conductivity of two-dimensional graphene-type materials with tilted cones as well as th...
Weyl semimetals are three-dimensional analogs of graphene with pointlike Fermi surfaces. Their linea...
International audienceThe pseudo-relativistic chiral electrons in 2D graphene and 3D topological sem...
Dirac materials have formed a thriving and prosperous direction in modern condensed matter physics. ...
Dirac materials have formed a thriving and prosperous direction in modern condensed matter physics. ...