Advancements in quantum computing enable accurate modeling of chemical interactions, benefiting pharmaceuticals, clean energy, and manufacturing sectors.

Introduction:Attosecond pulses capture ultrafast electron and light–matter dynamics on the shortest timescales accessible to controlled experiments ...

Attosecond pulses enable sub-femtosecond studies of ultrafast electron dynamics. Since 2001, pulse durations have shortened ...

Scientists at the Department of Energy's Lawrence Berkeley National Laboratory (Berkeley Lab) have developed a new way to determine atomic structures from nanocrystals previously considered unusable, ...

Professor Maxie Roessler, from Imperial’s Department of Chemistry, has been named a Laureate of the 2026 Blavatnik Awards for ...

Chemistry textbooks explain how reactions start and end, but they rarely show what happens in between. Seeing these hidden moments matters because chemistry is ultimately governed by quantum rules. By ...

The US capture of Maduro was a prime example of ‘America at her best’: Sen Lindsey Graham Sen. Lindsey Graham, R-S.C., discusses the global impact of the U.S. capture of Nicolas Maduro on ‘Sunday ...

Electron capture processes in ion–atom collisions constitute a critical phenomenon in understanding the interplay between charged particles and neutral atoms. In these collisions, an ion may capture ...

When electrons are cooled down, their energy reduces and they arrange in a stable-grid-like structure due to their mutual repulsion. This unique formation of electrons is called the Wigner crystal ...

Electrons typically travel at high speeds, zipping through matter unbound. In the 1930s, physicist Eugene Wigner predicted that electrons could be coaxed into stillness at low densities and cold ...

We calculate the Be7 electron capture rate from continuum orbits as a function of electron temperature and concentration and consider the effect on the decay rate, for some typical stellar conditions, ...