Spin–orbit coupling (SOC) intimately unites a particle’s spin with its momentum, bringing quantum mechanics to the forefront; in materials ... or even names in solid state physics, but ...

The consequences of spin–orbit coupling are particularly important in solid materials, where electrons move under the influence of an electromagnetic field produced by a crystal lattice. However, ...

Spin-orbit coupling is one of the fundamental ... due to common problem of uncontrollable complex environment, many researches of solid materials of exotic physics become extremely difficult.

A new research paper published in the journal Physical Review B demonstrates the spin-orbit coupling ... In a solid, the spins of various electrons can act in unison to change the magnetic and ...

Now a spin-orbit coupling that had previously been neglected is found to possibly be strong enough to give rise to an unconventional type of superconductivity in certain materials. The study by ...

"We successfully increased the spin-orbit coupling of graphene by stacking graphene on top of 2H-TaS2, which is one of the transition metal dichalcogenide materials with the largest spin-orbit ...

This effect is called spin-orbit coupling and is particularly strong in this material ... No one had really thought that this was possible in solid materials Johnpierre Paglione, University of ...

In a permanently magnetized material (a ferromagnet), an anomalous ... been observed is likely a result of topology, the high spin-orbit coupling, and the complex and not fully compensated ...

"We successfully increased the spin-orbit coupling of graphene by stacking graphene on top of 2H-TaS2, which is one of the transition metal dichalcogenide materials with the largest spin-orbit ...

"We successfully increased the spin-orbit coupling of graphene by stacking graphene on top of 2H-TaS 2, which is one of the transition metal dichalcogenide materials with the largest spin-orbit ...