The physics of Anderson transitions between localized and metallic phases in disordered
systems is reviewed. The term “Anderson transition” is understood in a broad sense …

An overview of the random network model invented by Chalker and Coddington, and its
generalizations, is provided. After a short introduction into the physics of the Integer …

Protection of topological surface states by reflection symmetry breaks down when the
boundary of the sample is misaligned with one of the high symmetry planes of the crystal …

In a disordered environment, the average transmission of a propagating wave falls with
increasing disorder. Beyond a crossover, transport is arrested because the wave is trapped …

Recent numerical simulations have shown that the distribution of conductances P (g) in
three-dimensional strongly localized systems differs significantly from the expected log …

We numerically investigate the single parameter scaling (SPS) hypothesis in a non-
interacting one-dimensional correlated Anderson model. In particular, we examine the role …

We calculate the entire distribution of the conductance P (G) of a one-dimensional
disordered system—quantum wire—subject to a time-dependent field. Our calculations are …

Impurities and defects are ubiquitous in topological insulators (TIs) and thus understanding
the effects of disorder on electronic transport is important. We calculate the distribution of the …

We consider sample to sample fluctuations of the waiting time between the detection of two
consecutive electrons in quasi-one-dimensional disordered conductors at zero temperature …

Conductance is a vital ingredient for understanding electronic transport in disordered
systems. In this paper, we report numerical computations of the logarithmic conductance …