Magnetism in two-dimensional (2D) van der Waals (vdW) materials has recently emerged as
one of the most promising areas in condensed matter research, with many exciting emerging …

The recent discoveries of strikingly large zero-field Hall and Nernst effects in
antiferromagnets Mn3 X (X= Sn, Ge) have brought the study of magnetic topological states to …

Piezomagnetism couples strain linearly to magnetic order, implying that it can produce and
control magnetization. However, unlike magnetostriction, which couples magnetization …

We propose a concept of noncollinear spin current, whose spin polarization varies in space
even in nonmagnetic crystals. While it is commonly assumed that the spin polarization of the …

Magnetic topological insulators and semimetals have a variety of properties that make them
attractive for applications, including spintronics and quantum computation, but very few high …

The investigations of the interconnection between micro-and macroscopic properties of
materials hosting noncollinear antiferromagnetic ground states are challenging. These …

Kagome metals are important for exploring emergent phenomena due to the interplay
between band topology and electron correlation. Motivated by the recent discovery of …

Mn 3 X (X= Sn, Ge, Ga) kagome Weyl semimetals have attracted significant research interest
due to their large anomalous Hall, thermal, and optical effects originating from their nontrivial …

Weyl semimetals are well known for their anomalous transport effects caused by a large
fictitious magnetic field generated by the nonzero Berry curvature. We performed the …

We construct a field-theoretic description of spin waves in hexagonal antiferromagnets with
three magnetic sublattices and coplanar 120∘ magnetic order. The three Goldstone modes …