Thanks to new research, we now know with much greater certainty the nuclear magnetic moments of francium atoms. Thanks to researchers from The University of Queensland, we now know with much greater ...

The study of chiral nuclear physics explores the phenomenon of handedness that arises from the interplay between triaxial deformation and the angular momentum of valence nucleons. In such systems, the ...

In nuclear physics, "magic numbers" identify specific numbers of protons or neutrons that lead to especially stable nuclei. Recognizing these numbers helps scientists better understand the structure ...

New experiments reveal possible η′-mesic nuclei, offering evidence that particle masses shift inside nuclear matter and ...

A central focus of our research program are several precision experiments that use parity-violating electron scattering to probe the structure of nucleons (the proton and the neutron).

Physicists working with molybdenum-84, a nucleus containing exactly 42 protons and 42 neutrons, have found that this seemingly balanced atom defies one of nuclear physics’ longest-standing ...

The red ball, blue star and black square represent the corresponding results of Rn, Ra and Th isotopes, respectively. In the shell model, the neutron number N=126 is regarded as a neutron magic number ...

Suggested Citation: "1 Introduction." National Research Council. 1999. Nuclear Physics: The Core of Matter, The Fuel of Stars. Washington, DC: The National Academies Press. doi: 10.17226/6288. work ...

Researchers have developed a new technique that predicts nuclear properties in record detail. The study revealed how the structure of a nucleus relates to the force that holds it together. This ...

The centrality dependence of mean multiplicity ratios from Optical Glauber simulations with various contribution of hard processes (x), and from Optical Trento simulations with various deposition ...