Boston College physicists have discovered a complex landscape of electronic states that can co-exist on a kagome lattice, resembling those in high-temperature superconductors, they reported this fall ...

The kagome ferromagnet showed a shift approximately 150 times larger than ordinary materials. Probing the interference patterns of the electron’s quantum mechanical wave functions revealed consistent ...

Using a Kagome superconductor (RbV 3 Sb 5), they have achieved time-reversal symmetry (TRS) breaking at 175 Kelvin (-144.67 °F or -98 °C). “Our research identifies a kagome superconductor ...

The structure has face-centered cubic symmetry, and is a little heavy to understand. The general formula is AB 2 O 4. The oxygens form an fcc lattice. The A cations occupy tetrahedral holes ... which ...