Electrons are incredibly fast. Because of their ultrafast motions, directly observing their behavior has been challenging. Now researchers have suggested a new method to make visualizing electron ...

Electrons oscillate around the nucleus of an atom on extremely short timescales, typically completing a cycle in just a few ...

It may be the smallest, shortest chorus dance ever recorded. An international team of researchers observed how electrons, excited by ultrafast light pulses, danced in unison around a particle less ...

A new method finally reveals the full quantum identity of electrons, offering insights that could transform material science ...

In a small manganese oxide cluster, teams from HZB and HU Berlin have discovered a particularly exciting compound: two high-spin manganese centers in two very different oxidation states. This complex ...

In a small manganese oxide cluster, teams from HZB and HU Berlin have discovered a particularly exciting compound: two high ...

TSMC’s development of 2-nanometer (N2) and A16 tech reflects its lead in semiconductor advancement. The company expects volume production for N2 to begin in H2 2025, which will offer high ...

This achievement could open a new way of looking at how electrons behave inside different materials. Their discovery highlights many effects that could be relevant to everything from quantum ...

X-ray absorption spectroscopy (XAS) is a powerful method for exploring molecular electronic structure by exciting core electrons into higher unoccupied ... Using the core–valence separation (CVS) ...

Confirming previous observations, we identify electron shifts on the outermost shells for a majority of the elements: valence s electrons are highly unfavored under strong confinement, and the ...