The discovery of ferromagnetic order in monolayer two-dimensional (2D) crystals has
opened a new venue in the field of 2D materials. Two-dimensional magnets are not only …

Two-dimensional (2D) materials exhibit a wide range of atomic structures, compositions, and
associated versatility of properties. Furthermore, for a given composition, a variety of …

This review addresses the method of explicit calculations of interatomic exchange
interactions of magnetic materials. This involves exchange mechanisms normally referred to …

Condensed matter systems admit topological collective excitations above a trivial ground
state, an example being Chern insulators formed by Dirac bosons with a gap at finite …

It has been predicted theoretically and indirectly confirmed experimentally that single-layer
Cr X 3 (X= Cl, Br, I) might be the prototypes of topological magnetic insulators (TMI). In this …

Heterostructures composed of 2D materials are already opening many new possibilities in
such fields of technology as electronics and magnonics, but far more could be achieved if …

Curved magnets attract considerable interest for their unusually rich phase diagram, often
encompassing exotic (eg, topological or chiral) spin states. Micromagnetic simulations are …

Novel 2D magnets exhibit intrinsic electrically tunable magnetism down to the monolayer
limit, which has significant value for nonvolatile memory and emerging computing device …

Ferromagnetism in two-dimensional CrI 3 has generated a lot of excitement, and it was
recently proposed that the spin-orbit coupling (SOC) in iodine may generate bond …

We have investigated the electronic and finite temperature magnetic properties of
germanium carbide (GeC) and ferromagnetic chromium nitride (CrN) heterobilayers by …