The basic aspects of electrons in graphene (two-dimensional graphite) exposed to a strong
perpendicular magnetic field are reviewed. One of its most salient features is the relativistic …

A range of quantum field theoretical phenomena driven by external magnetic fields and their
applications in relativistic systems and quasirelativistic condensed matter ones, such as …

In graphene, which is an atomic layer of crystalline carbon, two of the distinguishing
properties of the material are the charge carriers' two-dimensional and relativistic character …

This review covers recent experimental progress in probing the electronic properties of
graphene and how they are influenced by various substrates, by the presence of a magnetic …

The magnetic catalysis is broadly defined as an enhancement of dynamical symmetry
breaking by an external magnetic field. In this review, we discuss the underlying physics …

The ν= 0 quantum Hall state in a defect-free graphene sample is studied within the
framework of quantum Hall ferromagnetism. We perform a systematic analysis of the …

We study the chiral phase transition in a magnetic field at finite temperature and chemical
potential within the Sakai-Sugimoto model, a holographic top-down approach to (large-N c) …

We analyze the energy spectra of Dirac fermions in the presence of rotation and magnetic
field. We find that the Landau degeneracy is resolved by rotation. A drastic change in the …

The one-loop polarization function of graphene has been calculated at zero temperature for
arbitrary wavevector, frequency, chemical potential (doping), and band gap. The result is …

Two of the most important laboratories for the theory of strong interactions exhibit large
magnetic fields: firstly, in non-central relativistic heavy-ion collisions the magnetic field …