A kagome lattice of 3 d transition metal ions is a versatile platform for correlated topological
phases hosting symmetry-protected electronic excitations and magnetic ground states …

In magnetic Weyl semimetals, where magnetism breaks time-reversal symmetry, large
magnetically sensitive anomalous transport responses are anticipated that could be useful …

Combinations of nontrivial band topology and long-range magnetic order hold promise for
realizations of novel spintronic phenomena, such as the quantum anomalous Hall effect and …

The Zeeman effect describes the energy change of an atomic quantum state in a magnetic
field. The magnitude and direction of this change depend on the dimensionless Landé g …

The materials that exhibit strong spin-textured bands are rapidly attracting more and more
attention in past few years. In this new class of quantum materials, the band structures are …

Co-based shandite Co 3 Sn 2 S 2 is a ferromagnet hosting Weyl fermions in the layered Co
kagome structure. The band topology as well as the magnetism is predicted to vary …

With the help of density functional theory calculations, we explored the recently synthesized
double perovskite material Ca2CrOsO6 and found it to be a ferrimagnetic insulator with a …

The topological kagome magnet (TKM) Fe 3 Sn 2 exhibits unusual topological properties,
flat electronic bands, and chiral spin textures, making it an exquisite materials platform to …

Magnetic Weyl semimetals (MWSMs) exhibit unconventional transport phenomena, such as
large anomalous Hall (and Nernst) effects, which are absent in spatial inversion asymmetry …

Exchange bias is a phenomenon critical to solid-state technologies that require spin valves
or nonvolatile magnetic memory. The phenomenon is usually studied in the context of …