Quantum spin liquids (QSLs) are fascinating and mysterious states of matter that have intrigued scientists for decades. First ...

Quantum spin liquids are fascinating states of matter where magnetic spins stay disordered, defying the usual rules of magnetism. Scientists have made an exciting discovery about one such material.

causing that electron to flip its spin direction (down to up). This spin flip will give rise to an electrical current, which is measured in the experiment.

Other physicists recognized this, and redid the thought experiment to use more intuitive properties such as electron spin and photon phase as opposed to position / momentum to describe the paradox.

‘Ordinary’ spinless electron systems don’t ... “The remarkable agreement between the experiment and theory collapsed when we eliminated spin,” Kravchenko says. Specifically, the team ...

Superconductors can carry electricity without losing energy, a superpower that makes them invaluable for a range of ...

They conducted the experiments in an ultra-high vacuum ... the direction of the electron spin was aligned with the direction of the current due to the novel properties of these thin alloys." ...

In µSR spectroscopy, a unique particle called muonium (Mu) is formed when a muon captures an electron. This muonium reacts with the phosphorus compound, creating a highly reactive radical at the ...

It is similar to NMR spectroscopy, but instead of exciting the spins of atomic nuclei, EPR excites the electron spins of unpaired electrons ... and Mn/Cr ATP complexes. Site-directed spin labelling ...