A kagome lattice naturally features Dirac fermions, flat bands and van Hove singularities in
its electronic structure. The Dirac fermions encode topology, flat bands favour correlated …

The field of magnetic skyrmions has been actively investigated across a wide range of topics
during the last decades. In this topical review, we mainly review and discuss key results and …

Skyrmions have received considerable attention in various studies since the experimental
observation in magnetic materials in 2009. Skyrmions, which are topological, particle-like …

The kagome lattice is a two-dimensional network of corner-sharing triangles that is known to
host exotic quantum magnetic states,,. Theoretical work has predicted that kagome lattices …

Owing to the unusual geometry of kagome lattices—lattices made of corner-sharing triangles—
their electrons are useful for studying the physics of frustrated, correlated and topological …

Room‐temperature magnetic skyrmion materials exhibiting robust topological Hall effect
(THE) are crucial for novel nano‐spintronic devices. However, such skyrmion‐hosting …

Realizing room-temperature magnetic skyrmions in two-dimensional van der Waals
ferromagnets offers unparalleled prospects for future spintronic applications. However, due …

Improvements in computing performance have significantly slowed down over the past few
years owing to the intrinsic limitations of computing hardware. However, the demand for data …

Two-dimensional (2D) van der Waals (vdW) magnetic materials have recently been
introduced as a new horizon in materials science, and they enable potential applications for …

Topological spin/polarization structures in ferroic materials continue to draw great attention
as a result of their fascinating physical behaviors and promising applications in the field of …