The emerging nonvolatile memory technologies based on ferroic materials are promising for
producing high‐speed, low‐power, and high‐density memory in the field of integrated …

The discovery of 2D intrinsic magnetic materials with ultrathin structures and smooth
surfaces has enabled the investigation of fundamental magnetism physics and creation of …

The kagome lattice provides a fascinating playground to study geometrical frustration,
topology and strong correlations. The newly discovered kagome metals AV3Sb5 (where A …

Mechanical deformation of a crystal can have a profound effect on its physical properties.
Notably, even small modifications of bond geometry can completely change the size and …

Topological phonons and magnons potentially enable low-loss, quantum coherent, and
chiral transport of information and energy at the atomic scale. Van der Waals magnetic …

Two-dimensional ferromagnets have recently drawn extensive attention, and here we study
the electronic structure and magnetic properties of the bulk and monolayer of CrSBr using …

Magnetic excitations in van der Waals (vdW) materials, especially in the two-dimensional
(2D) limit, are an exciting research topic from both the fundamental and applied …

The effects of fluctuations and disorder, which are substantially enhanced in reduced
dimensionalities, can play a crucial role in producing non-trivial phases of matter such as …

Optical birefringence is a fundamental optical property of crystals widely used for filtering
and beam splitting of photons. Birefringent crystals concurrently possess the property of …

Abstract 2D van der Waals (vdW) antiferromagnets have received intensive attention due to
their terahertz resonance, multilevel magnetic‐order states, and ultrafast spin dynamics …