Neutron sources can be directly identified from measured spectra rather than proxies using inference tools adapted from ...
Illustration of the new method: the researchers use five-dimensional black holes (right) to calculate the phase diagram of strongly coupled matter (middle), enabling simulations of neutron star ...
Gravitational-wave researchers at the University of Birmingham have developed a new model that promises to yield fresh insights into the structure and composition of neutron stars. The model shows ...
Researchers have developed a new artificial intelligence powered simulation that could significantly improve our understanding of how the universe ...
Add Yahoo as a preferred source to see more of our stories on Google. Artist’s impression of a neutron star merger. (CREDIT: Dana Berry, SkyWorks Digital, Inc.) Some of the universe’s heaviest ...
The unique oscillations in binary neutron stars right before they merge could have big implications for the insights scientists can glean from gravitational wave detection. The unique oscillations in ...
When it comes to weighty matters, quarks and gluons rule the universe, a new study confirms. One of the largest computational efforts to calculate the masses of protons and neutrons shows that the ...
By identifying model magnets and studying them with neutron scattering, we have been able to break away from the mean-field paradigm, and to reveal the full richness of magnetic behaviour — a process ...
During the first billion years of the Universe’s history, the gradual cooling from the Big Bang was reversed, and much of the gas was re-heated and ionized. This event, known as reionization, happened ...
Gravitational-wave researchers have developed a new model that promises to yield fresh insights into the structure and composition of neutron stars. Gravitational-wave researchers at the University of ...