The last few years have seen an explosion of interest in hydrodynamic effects in interacting
electron systems in ultra-pure materials. One such material, graphene, is not only an …

Among the family of currently known promising quasi-two-dimensional (2D) materials, the
authors of this survey concentrate on the problem of functionalization of the graphene-and …

We study numerically a role of the uniaxial tensile strains and disordered defects in their
impact on electronic density of states (DOS) in graphene exposed to an external magnetic …

We model the influence of an in-plane magnetic field on the orbital motion of electrons in
rhombohedral graphene multilayers. For zero field, the low-energy band structure includes a …

We report on the results obtained modelling the electronic and transport properties of single-
layer graphene subjected to mechanical or magnetic fields and containing point defects …

We consider longitudinal electronic transport in a graphene monolayer with an external in-
plane magnetic field parallel to the electric field and in the presence of extrinsic spatially …

We investigate collective spin excitations of graphene electrons with short-ranged
interactions and subject to the external Zeeman magnetic field. We find that in addition to the …

In spin-polarized itinerant electron systems, collective spin-wave modes arise from
dynamical exchange and correlation (xc) effects. We consider here spin waves in doped …

In compensated two-component systems in confined, two-dimensional geometries, nonlocal
response may appear due to an external magnetic field. Within a phenomenological two …

In this study we have measured the magnetoresistance response of inverted HgTe quantum
wells in the presence of a large parallel magnetic field up to 33 T. We show that in quantum …