Top minds at the world’s largest atom smasher have released a blueprint for a much bigger successor that could vastly improve ...

Nuclear fission – the physical process by which very large atoms like uranium split into pairs of smaller atoms – is what makes nuclear bombs and nuclear power plants possible. But for many years, ...

A long-awaiting report from CERN explores the feasibility of building a supersized successor to the Large Hadron Collider ...

Nuclear physics research is focused on understanding the matter composed of quarks and gluons, which makes up 99% of the mass of the universe. Most of this matter is found at the core of atoms, the ...

A groundbreaking radiation detector developed by students and staff at the University of the West of Scotland (UWS) is set to ...

University of Queensland researchers have made a breakthrough in muonic atom research, clearing the way for new nuclear physics experiments. A team at the UQ School of Mathematics and Physics has ...

University of Queensland researchers have made a breakthrough in muonic atom research, clearing the way for new nuclear physics experiments.A team at ...

A newly developed framework for quantifying uncertainties enhances the predictive power of analog quantum simulations.

A "cutting-edge" radiation detector module for nuclear experiments has been developed by staff and students at the University of the West of Scotland (UWS) that will be deployed at the world’s top ...

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