The quantum Hall (QH) effect, quantized Hall resistance combined with zero longitudinal
resistance, is the characteristic experimental fingerprint of Chern insulators—topologically …

We review theoretical and experimental highlights in transport in two-dimensional
topological materials over the last five years. Topological materials comprise topological …

In symmetry-broken crystalline solids, pole structures of Berry curvature (BC) can emerge,
and they have been utilized as a versatile tool for controlling transport properties. For …

The quantum anomalous Hall effect (QAHE) has recently been reported to emerge in
magnetically doped topological insulators. Although its general phenomenology is well …

The electronic structure of a two-dimensional ferromagnetic Mn Se 2 monolayer was
investigated using density functional theory. It was found that the computed Curie …

Abstract Antimony sulphide (Sb 2 S 3) is a potential candidate for alternative material in
solar cell application. The structural, electronic, and optical properties of Ni doped Sb 2 S 3 …

Breaking time-reversal symmetry in three-dimensional topological insulator thin films can
lead to different topological quantum phases, such as the Chern insulator (CI) phase and the …

The topological states of matter arising from the nontrivial magnetic configuration provide a
better understanding of physical properties and functionalities of solid materials. Such …

In this paper, we employ electronic structure theory to investigate the nature of the exchange
coupling in transition metal doped Bi 2 Se 3. We focus on V, Cr, Mn, and Fe, which have …

An insulating ferromagnetic ground state is a fundamental prerequisite for the quantum
anomalous Hall (QAH) effect observed in magnetically doped topological insulators such as …