The study also revealed that in chiral molecules of a given handedness—whether it is a left- or right-handed molecule—the ...

Solid-state nuclear spin systems are naturally complex many-body quantum systems that can be precisely controlled through quantum control technologies, thereby enabling the implementation of ...

The neutron star 4U 1820-30 is one of the fastest spinning bodies in the universe, spinning at 716 times a second and ...

Energy is a precious commodity in space exploration. Perpetual Atomics, a spin-off from the University of Leicester, is ...

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 from Skoltech, the University of Warsaw, and the University of Iceland have demonstrated that by optical means it ...

Using two specialized microscopes invented at the Marine Biological Laboratory (MBL), a team of researchers from Japan and ...

Nuclear Magnetic Resonance (NMR ... This magnetic field makes the possible spin-states of the nucleus differ in energy, and using NMR techniques the spins can be made to create observable transitions ...

Neutrons also have a nuclear spin, making them very sensitive to the location and orientation of magnetic moments in materials and the probe of choice for many studies of magnetism. The mass of the ...

The strength of a coupling between nuclear spins depends on chirality, or handedness, of the molecule, according to a new study by researchers at UCLA, Arizona State University, Penn State, MIT ...