Neutron stars harbor some of the most extreme environments in the universe: their densities soar to several times those of atomic nuclei, and they possess some of the strongest gravitational fields of ...

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 ...

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 ...

"We have good reason to suspect that new physics beyond the standard model might be lurking just around the corner." When you purchase through links on our site, we may earn an affiliate commission.

In biology, defects are generally bad. But in materials science, defects can be intentionally tuned to give materials useful ...

"More than half a century has passed since the discovery of neutron stars, but the mechanism of why glitches happen is not yet understood." When you purchase through links on our site, we may earn an ...

Forget archaeologists and their lost civilizations, or paleontologists with their fossils—astrophysicist Heloise Stevance studies the past on an entirely different scale. When astronomers catch a ...

A team of researchers from the Massachusetts Institute of Technology used Frontier to chart the isospin density of a neutron star over a range of conditions. This illustration depicts isospin-dense ...

Daniel Reardon receives funding from the Australian Research Council Centre of Excellence for Gravitational Wave Discovery (OzGrav). Neutron stars are some of the most extreme objects in the universe.

A new model measures defects that can be leveraged to improve materials' mechanical strength, heat transfer, and ...