Abstract: Spin-orbit torques have emerged as a powerful mechanism for manipulating magnetic moments in spintronic devices, offering a pathway to more efficient and scalable memory and logic ...

Scientists have created spin waves with record wavelengths, a breakthrough that could lead to faster, more efficient, and greener electronic technologies. (Nanowerk News) Spin waves are considered to ...

Introduction: The electronic structure of the HBr molecule was investigated with particular attention to the spin–orbit coupling effect, aiming to assess its suitability for laser cooling applications ...

The anisotropic spatial distribution of lanthanide 4f electrons plays a pivotal role in governing key material properties, from magnetism to emergent quantum behaviors. However, their pronounced ...

0759 GMT - Oil prices slip in early trade as investors weigh a widely anticipated rate cut in the U.S. and mixed signals about demand. Brent crude is down 0.5% to $67.60 a barrel, while WTI falls 0.6% ...

Scientists have discovered that electron spin loss, long considered waste, can instead drive magnetization switching in spintronic devices, boosting efficiency by up to three times. The scalable, ...

(Left) A conventional structure that runs a current through the outside of a magnet to generate spins and drive them into the magnet. Some of the spins leak out as they travel, and this spin loss ...

There are high hopes for quantum computers: they are supposed to perform specific calculations much faster than current supercomputers and, therefore, solve scientific and practical problems that are ...

The spin–orbit effect on the quantum corrections to the frequencies of the Γ-point optical phonon modes in graphene within the continuum approximation for phonons and the effective-mass approximation ...

A team of researchers has developed a novel method for using cholesteric liquid crystals in optical microcavities. The platform created by the researchers enables the formation and dynamic tuning of ...

This schematic illustrates how regulating electron spin states through six key strategies—including defect engineering, valence modulation, and magnetic field application—can optimize catalytic ...