Happily, electrons do interact with the rest of the universe ... between an applied magnetic field and the intrinsic spin of the electron. This is a tiny shift, but you can see its effects ...

To do that, scientists create conditions like extreme cold ... That made it easier to pick out these electrons for further study through a process called electron spin resonance—unpaired electrons are ...

Scientists from MIT have modeled an elusive superconductor using a much larger stand-in. By shaping atoms with lasers and ...

There’s just one catch: every atom in your body would be fully disassembled to the quantum level, effectively leaving your ...

Electrons spin even without an electric charge and this motion in condensed matter constitutes spin current, which is attracting a great deal of ...

In addition, the crystal edges do not have to be specially prepared to conduct electrical current. If the crystal breaks, the new edges automatically also conduct current. One unique property of ...

By colliding spin-polarized electrons with polarized protons ... systems—along with their collaborators—figured out how to do away with the surrounding greenhouse-gas-filled chamber.

The podcast ‘Does It Fly?’ asks whether the technology of Star Trek, Doctor Who and other popular sci-fi shows could really work.

A study found chirality, or handedness, does in fact determine the strength of a coupling between nuclear spins. Findings could lead to better methods of probing electrons and spin in chemical and ...

Researchers at Lab have advanced the understanding of magnetic skyrmions by developing techniques to image their 3D ...

Jungfleisch, who joined UD’s faculty in 2018, is an expert in magnon spintronics. He uses lasers to explore the dynamics of ...