The film report discusses the nature of electricity, explaining its significance in daily life and its presence in various ...

These nuclei had specific numbers of protons or neutrons, or magic numbers, as physicist Eugene Wigner called them. The race to figure out what made these nuclei so stable began. Understanding ...

Binary neutron star mergers occur millions of light-years away from Earth. Interpreting the gravitational waves they produce presents a major challenge for traditional data-analysis methods. These ...

Powering spacecraft with solar energy may not seem like a challenge, given how intense the Sun's light can feel on Earth.

In the case of lead-208—the heaviest stable isotope known so far—a team of researchers led by physicist Jack Henderson ...

In a groundbreaking discovery, scientists have revealed an unprecedented map of the forces acting within a proton. This map ...

Einsteinium-255, produced through irradiation in ILL’s high-flux reactor, provided a continuous supply of fermium-255, ...

The interactions between quarks within a proton and the quarks of other protons and neutrons in atomic nuclei are notoriously difficult to fully model. To bring some clarity to the problem ...

including the quarks and gluons that make up the protons and neutrons of nuclei. The EIC requires sensitive and precise detectors, and SNSPDs will be valuable tools for capturing and analyzing the ...

The new material could be key to finally building a successful fusion reactor.

Neutron stars are some of the densest objects in the universe. They are the core of a collapsed megastar that went supernova, ...

a zinc beam consisting of 30 protons and 40 neutrons was used to bombard lead target nuclei, composed of 82 protons and 126 neutrons, resulting in a new element that had 112 protons and 166 ...