Brookhaven National Laboratory have discovered a new phase of matter while studying a model system of a magnetic material.

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

Thomson initially thought his corpuscles were much too small to be of interest to anyone outside a science lab ... to phones to microwaves, the electron turned out to be interesting to just ...

A new study provides fresh insight into traditional acid-base chemistry by revealing that the mutual neutralization of ...

and material science. “Not only can we create such a powerful electron beam, but we’re also able to control the beam in ways that are customizable and on demand, which means we can probe a much wider ...

The electron wavefunction at the plane where the ... high-resolution' images has become a common technique in materials science 18. Some of this work was capable of atomic-scale resolution.

The research also contributes to attosecond science, where control over electron dynamics is crucial for investigating ultrafast chemical processes. Real-time manipulation and measurement of ...

Researchers have simplified a highly complex quantum imaging technique, 2DES, used to observe ultrafast electron interactions ...

Chemists reveal method for differentiating PCET mechanisms -- a key step for steering fundamental energy conversion and redox catalysis processes.

The most powerful ultrashort electron beam ever created offers new possibilities for recreating cosmic conditions in ...

The South Atlantic Anomaly represents a region within near-Earth space characterized by a significantly weaker geomagnetic ...

Researchers shed new light on G-quadruplexes, a type of secondary DNA structure that has attracted attention as a potential therapeutic target in cancer.