An international team of researchers, including scientists from Science Tokyo, has developed a five-dimensional Langevin model that accurately reproduces the complex fission fragment distributions and ...

A five-dimensional (5D) Langevin approach developed by an international team of researchers, including members from Science Tokyo, accurately reproduces complex fission fragment distributions and ...

An international team of researchers has developed a unique modeling system that could contribute to the future of nuclear energy production. As explained in an Institute of Science Tokyo report ...

An international team of scientists has identified an unexpected region of heavy, neutron-deficient isotopes in the nuclear chart where nuclear fission is predominantly governed by an asymmetric mode.

A five-dimensional model accurately predicts the asymmetric fission of mercury isotopes, advancing our understanding of nuclear fission beyond traditional heavy elements such as uranium and plutonium ...

Researchers from the University of Washington, Seattle, and Los Alamos National Laboratory used the Summit supercomputer to conduct the first fully microscopic, quantum many-body simulation of a ...

Nuclear physics is the branch of science that examines the properties and behaviour of atomic nuclei, the densely packed assemblies of protons and neutrons held together by the strong interaction.

An international team of scientists has identified an unexpected region of heavy, neutron-deficient isotopes in the nuclear chart where nuclear fission is predominantly governed by an asymmetric mode.

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 ...