A mathematical equivalent of a microscope with variable resolution has shed light on why some atoms are exceptionally stable, ...

A simulation of a rapidly accreting white dwarf showing a proposed site for the intermediate (i) process and the Summing NaI (SuN) detector. The research studied the 139Ba+n reaction, constrained by ...

Nuclear fusion, the process that powers every star in the observable universe, has moved from theoretical physics into the realm of real laboratory results. On December 5, 2022, scientists achieved ...

Just after 9 a.m. on Friday, Feb. 6, 2026, final beams of oxygen ions—oxygen atoms stripped of their electrons—circulated ...

The figure illustrates the experimental setup used to measure neutron leakage spectra from natural lead (nat Pb) slab samples, employing both D-T and D-D neutron sources at the integral experiment ...

Target preparation techniques are fundamental to nuclear physics experiments as they provide the essential interface where high-energy reactions occur. Researchers employ a range of fabrication ...

The U.S. and China lead global efforts to make nuclear fusion commercially viable, with billion-dollar projects aiming for net-positive energy. Los Alamos scientists successfully recreated a 1938 ...

On an October morning in 2023, a chemical explosion detonated in a tunnel under the Nevada desert was the launch of the next set of experiments by the National Nuclear Security Administration, with ...

A Los Alamos collaboration has replicated an important but largely forgotten physics experiment: the first deuterium-tritium (DT) fusion observation. As described in the article published in Physical ...

Physics experiments have changed the world irrevocably, altering our reality and enabling us to take gigantic leaps in technology. From ancient times to now, here's a look at some of the greatest ...

A new data center has been built at IN2P3, France’s nuclear and particle physics research body. The VIL3 data center, at ...