Observations of the formation of light-nuclei from high-energy collisions may help in the hunt for dark matter.

Researchers from TUM, working at CERN, have made a groundbreaking discovery that reveals how deuterons are formed. Another long-standing question in particle physics has been answered. Scientists ...

A new theory proposes that the universe’s fundamental forces and particle properties may arise from the geometry of hidden ...

A revolutionary achievement could pave the way for smaller, more efficient nuclear clocks. Last year, a research team led by UCLA achieved a milestone scientists had pursued for half a century. They s ...

Boiling sea of quarks and gluons, including virtual ones – this is how we can imagine the main phase of high-energy proton ...

Our account of the strong nuclear force is full of imaginative terms. Six flavors of quarks have color charges of red, green and blue, which dictate how they bind to form particles like protons and ...

Nuclear and plasma physics form complementary pillars in our understanding of the fundamental forces and states of matter. Nuclear physics investigates the structure, dynamics and interactions of ...

Researchers at HZDR have partnered with the Norwegian University of Science and Technology in Trondheim, and the Institute of ...

Rosatom and Kazakhstan’s Institute of Nuclear Physics have signed an MoU to develop a multi‑purpose research reactor and lab ...

Are you ready to be part of the next wave of energy innovators? The nuclear energy science certificate at the University of Wyoming offers a unique opportunity to dive deep into one of the most ...

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