Recent findings reveal phosphorene nanoribbons exhibit intrinsic magnetic and semiconducting properties, paving the way for ...

Researchers demonstrate how phosphorene nanoribbons' magnetic properties interact with light, paving the way for new quantum technologies.

A schematic of the photoexcited dipole dynamics in phosphorene nanoribbons ... only a few nanometres wide – might exhibit ...

On 24 February, the U.S. Department of Energy Office of Science (DOE-SC) approved construction of a $48.5 million instrument ...

Try to fathom the power of 1 million nuclear power plants. Now, imagine there is a way to pack the equivalent of that into ...

The magnetic response of a materials is largely determined by the magnetic dipole moment associated with the intrinsic angular momentum, or spin, of its electrons. A material’s response to an ...

particularly a rotating neutron star (like a pulsar), slows down its rotation due to the loss of rotational energy through magnetic dipole radiation. Through mapping the acceleration field of the ...

Scientists have long used Gaussian beams to study how light interacts with matter. These beams resemble plane waves and rely ...

Innovative gel polymer electrolyte design enhances lithium metal battery efficiency and safety, enabling operation from -30 ...

Shortening a bunch of electrons needs further manipulation, so the team moved on to an undulator magnet, which uses rows of dipole magnets that have closed magnetic fields which loop through both ...

Ferromagnetism is a form of magnetic ordering in which the intrinsic magnetic dipole moment, or spin, of electrons on each crystal-lattice site all align in the same direction. It is the ...