A Swift Kick to Initiate Electronic Motion in Molecules
Observation of impulsive stimulated X-ray Raman scattering with attosecond soft X-ray pulses.
Observation of impulsive stimulated X-ray Raman scattering with attosecond soft X-ray pulses.
Advanced techniques reveal how defects in nanoscale crystals affect how solar photovoltaics perform.
Harnessing the intensity of a terahertz laser pulse brings the resolution of electron scattering closer to the scale of electron and proton motion.
Crystals grown from layers of atoms arrange themselves on semiconductor surfaces to add new capabilities.
Neutron scattering and isotopic substitution techniques reveal how to block vibrations that could leak heat from a photovoltaic cell.
Neutron scattering reveals a new way for magnetic oscillations to stick together.
Neutron and X-ray experiments illuminate the magnetic transitions in hexagonal iron sulfide that transform it from a conductor to an insulator.
Swarms of synchronized active spinning particles exhibit complex collective behavior, ranging from liquid-like states to dynamic crystals.
New lens could generate an ion beam that is both small and fast.
Insight into charge generation induced by light could enable the design of better photocatalysts made from nanomaterials.
Controlling the knotting of molecular chains offers new ties from polymer fluids to industrial applications.
Machine learning-based algorithm characterizes materials’ microstructure in 3D and real time.