Researchers used powerful XFELs to trigger strong inner-shell lasing, producing attosecond hard X-ray pulses. Filamentation ...

X-ray fluorescence analysis has played a significant role in material elemental identification and charge state measurements during exploration of ...

Once only a part of science fiction, lasers are now everyday objects used in research, health care and even just for fun.

This system is similar to hydrogen but adds the interaction with the two tightly-bound electrons of the inner atomic shell.

The material interface was driving electron transfer from the diamond into the shell. Depleting electrons from the atoms and molecules that normally reduce the quantum coherence made a more ...

Quantum science, cellular biology, and high-definition television technology converge in the development of new biosensors.

Researchers have generated the shortest hard X-ray pulses ever — using an intense XFEL beam and a novel lasing process.

This year, World Food Safety Day highlights the role of science in helping the world produce better food, prevent foodborne ...

Researchers at IBM and Lockheed Martin teamed up high-performance computing with quantum computing to accurately model the electronic structure of ‘open-shell’ molecules, methylene, which has ...

Once only a part of science fiction, lasers are now everyday objects used in research, healthcare and even just for fun.

The team used high-energy pulses from LCLS and Japan’s SACLA XFEL to create their new laser through stimulated emission. In this study, the pulses were focused onto copper or manganese targets, with ...

A one-quintillionth-of-a-second lasing breakthrough could lead to next-generation X-ray technologies, improving imaging in ...