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 ... College and the first author of the paper “This unusual interaction allows PNRs to uniquely couple magnetic, optical and ...

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

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

“Femtosecond-level control of ultra-high current beams is a powerful tool for optimizing next generation beam interactions ... uses rows of dipole magnets that have closed magnetic fields ...

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

“Femtosecond-level control of ultra-high current beams is a powerful tool for optimizing next generation beam interactions relevant ... which uses rows of dipole magnets that have closed magnetic ...

Antiparallel Arrangement,Arrays Of Particles,Center Of The Array,Cubic Form,Dipole-dipole Interactions,Electronic Configuration,Ferromagnetic Resonance,Field Values,High Field,Interparticle ...

Its interaction with matter induces rotational delocalization of electrons, resulting in the formation of a magnetic transition dipole. This effect not only facilitates photoexcitation in ...

Centre for Functional Magnetic Resonance Imaging of the Brain, Department of Clinical Neurology, University of Oxford, Oxford, UK Correspondence to: Professor P M Matthews Centre for Functional ...