Unexpected, yet useful functionalities emerge when two or more materials merge
coherently. Artificial oxide superlattices realize atomic and crystal structures that are not …

The 5d iridium‐based transition metal oxides have gained broad interest because of their
strong spin–orbit coupling, which favors new or exotic quantum electronic states. On the …

In transition‐metal‐oxide heterostructures, the anomalous Hall effect (AHE) is a powerful
tool for detecting the magnetic state and revealing intriguing interfacial magnetic orderings …

Ferromagnetic materials with a strong spin‐orbit coupling (SOC) have attracted much
attention in recent years because of their exotic properties and potential applications in …

By modifying the entangled multi‐degrees of freedom of transition‐metal oxides, interlayer
coupling usually produces interfacial phases with unusual functionalities. Herein, a …

Spin injection and spin–charge conversion processes in all-oxide La2/3Sr1/3MnO3/SrIrO3
(LSMO/SIO) heterostructures with different SIO layer thickness and interfacial features have …

Due to the strong interlayer coupling between multiple degrees of freedom, oxide
heterostructures have demonstrated exotic properties that are not shown by their bulk …

With its potential for drastically reduced operation power of information processing devices,
electric field control of magnetism has generated huge research interest. Recently, novel …

The anisotropic Rashba effect allows for the manipulation of electron spins in a more precise
and tunable manner since the magnitude of the Rashba splitting and orientation of the spin …

Spin gapless semiconductors exhibit a finite band gap for one spin channel and a closed
gap for another spin channel, and they have emerged as a new state of magnetic materials …