Superconductivity is an advantageous property observed in some materials, which entails the ability to conduct electricity ...

In conclusion, we have discovered an optically switchable indirect nuclear spin–spin coupling, which is manifested in CP experiments with GaAs under light illumination.

A new study finds a unique form of tunable and ultrastrong spin-spin interactions in orthoferrites under a strong magnetic field. The discovery has implications for quantum simulation and sensing.

Electric charge is no longer required to carry information as scientists find a practical way to use spintronics in graphene.

Since 1999, scientists have known that chirality, one of the most fundamental properties of certain molecules, has a powerful effect on spin state, but it was thought to have no effect on coupling.

What if electricity and magnetism, usually considered as separate or even competing forces in materials, could actually work together in harmony?

A team of researchers has developed a novel method for using cholesteric liquid crystals in optical microcavities. The ...

A NUST MISIS professor was part of an international research team that has found evidence for the existence of the Zeeman spin-orbit coupling in antiferromagnetic conductors. This work may pave ...

Spin–orbit coupling means that otherwise identical electrons with different spins will follow different trajectories in the same electromagnetic field. The consequences of spin–orbit coupling are ...

This effect is called spin-orbit coupling and is particularly strong in this material. The result is that the spin-3/2 state – which combines spin and orbital angular momentum – is the lowest energy ...

image: A Rice University-led study finds a unique form of tunable and ultrastrong spin-spin interactions in orthoferrites under a strong magnetic field. The discovery has implications for quantum ...