Quantum spin liquids are an exciting playground for exotic physical phenomena and
emergent many-body quantum states. The realization and discovery of quantum spin liquid …

Geometric frustrated kagome systems can show complex and exotic magnetic properties.
We theoretically predict ways in which these can be manipulated in two-dimensional (2D) …

Kagomé metals are widely recognized, versatile platforms for exploring topological
properties, unconventional electronic correlations, magnetic frustration, and …

Using ultrahigh magnetic field up to 120 T, a 1/2 magnetization plateau within 11.7–34.8 T
and a 3/4-like plateau within 55.6–87.0 T have been observed in the S-1 skew chain …

Quasiparticles are physically motivated mathematical constructs for simplifying the
seemingly complicated many-body description of solids. A complete understanding of their …

Topological quantum magnets FeSn and Fe 3 Sn 2 were studied using neutron scattering
and first-principles calculations. Both materials are metallic but host dispersionless flat …

A central problem in modern condensed matter physics is the understanding of materials
with strong electron correlations. Despite extensive work, the essential physics of many of …

Comment on “Spin-Lattice Coupling and the Emergence of the Trimerized Phase in the S=1
Kagome Antiferromagnet Na2Ti3Cl8” Page 1 Comment on “Spin-Lattice Coupling and the …

Emergent molecularlike excitations have been discovered in a series of pyrochlore
antiferromagnets, yet their origins and relationships with the coexisting magnon excitations …

Kagome metals are widely recognized as versatile platforms for exploring novel topological
properties, unconventional electronic correlations, magnetic frustration, and …