Scientists have now mapped the forces acting inside a proton, showing in unprecedented detail how quarks—the tiny particles ...

Put simply, solid state batteries have the potential to be smaller, lighter, less volatile, and more energy-dense than ...

Neutron stars, the collapsed remnants of massive stars, hold the densest matter in the universe. These cosmic objects are ...

Such explorations have the potential to challenge our current approaches to studying nuclear matter, with important impacts for the future of both nuclear physics and astronomy. Longer term, there may ...

If the collision doesn’t melt the nuclear matter into a soup of free quarks and gluons — the QGP — then these energetic jets of particles, or their decay products, sail out freely to be counted by ...

Researchers from Kyushu University, Japan have revealed how a special type of force within an atom's nucleus, known as the three-nucleon force, impacts nuclear ... All matter is made of atoms ...

Nuclear forces can be compared to a game of ... such as the formation of heavy elements within stars. All matter is made of atoms, the building blocks of the universe. Most of an atom’s mass ...

Where will that leave nuclear startups and energy companies? It depends. Some might be able to produce power at a low enough cost that it won’t matter if AI’s power needs ebb. The world is ...

Because we haven't found anything yet, we've started to wonder if dark matter might be lighter or heavier than we thought. When you purchase through links on our site, we may earn an affiliate ...

The pB11 fusion reaction is highly appealing for controlled nuclear fusion in energy production ... boron fusion induced by an external proton beam in a homogenous plasma of density and temperature of ...