This is an update of a previous review (Naumis et al 2017 Rep. Prog. Phys. 80 096501).
Experimental and theoretical advances for straining graphene and other metallic, insulating …

In this work, we propose an electronic Lévy glass built from graphene nanoribbons in the
presence of regions with enhanced spin-orbit coupling. Although electrons in graphene …

We present experimental findings on electron–electron scattering in two-dimensional moiré
heterostructures with a tunable Fermi wave vector, reciprocal lattice vector, and band gap …

Quantum transport can distinguish between dynamical phases of matter. For instance,
ballistic propagation characterizes the absence of disorder, whereas in many-body localized …

Fractional quantum Hall (FQH) phases emerge due to strong electronic interactions and are
characterized by anyonic quasiparticles, each distinguished by unique topological …

Disorder and electron-electron interaction play essential roles in the physics of electron
systems in condensed matter. In two-dimensional, quantum Hall systems, extensive studies …

We investigate the quantum Hall effect in a single Landau level in the presence of a square
superlattice of δ-function potentials. The interplay between the superlattice spacing as and …

Two-dimensional topological insulators are characterized by the bulk gap and one-
dimensional helical states running along the edges. The theory predicts the topological …

Neuromorphic computing has emphasized the need for memristors with non-volatile,
multiple conductance levels. This paper demonstrates the potential of hexagonal boron …

Aperiodic order is ubiquitous in nature and quite relevant in science and technology. There
are extensive works in aperiodic structures studying fundamental characteristics in physical …