A superconducting diode enables supercurrent to flow in only one direction, providing new
functionalities for superconducting circuits. In recent years, there has been experimental …

Spin–orbit coupling (SOC) describes the relativistic interaction between the spin and
momentum degrees of freedom of electrons, and is central to the rich phenomena observed …

Transport is non-reciprocal when not only the sign, but also the absolute value of the current
depends on the polarity of the applied voltage. It requires simultaneously broken inversion …

The recent discovery of the intrinsic supercurrent diode effect, and its prompt observation in
a rich variety of systems, has shown that non-reciprocal supercurrents naturally emerge …

Since the early 1980s, most electronics have relied on the use of complementary metal–
oxide–semiconductor (CMOS) transistors. However, the principles of CMOS operation …

The spin–orbit interaction plays an important role in magnetism and in many quantum
materials. It is the cornerstone of the physics of many electronic phases that emerge at …

Oxide materials possess a vast range of functional properties, ranging from
superconductivity to multiferroicity, that stem from the interplay between the lattice, charge …

The spin–orbit interaction couples the electrons' motion to their spin. As a result, a charge
current running through a material with strong spin–orbit coupling generates a transverse …

We present results on spin to charge current conversion in experiments of resonant spin
pum** into the Dirac cone with helical spin polarization of the elemental topological …

Efficient generation of spin–orbit torques is central for the exciting field of spin-orbitronics.
Platinum, the archetypal spin Hall material, has the potential to be an outstanding provider …