Neutron star "mountains" would be much more massive than any on Earth—so massive that gravity just from these mountains could produce small oscillations, or ripples, in the fabric of space and time.

The team used advanced numerical simulations to model the magneto-thermal evolution of these stars, finding that a specific dynamo process within the proto-neutron star can generate these weaker ...

The team used advanced numerical simulations to model the magneto-thermal evolution of these stars, finding that a specific dynamo process within the proto-neutron star can generate these weaker ...

Core package to analyze gravitational-wave data, find signals, and study their parameters. This package was used in the first direct detection of gravitational waves (GW150914), and is used in the ...

Australian scientists have discovered a collapsed star called a neutron star that spins thousands of times slower than expected. The star, called ASKAP J1839-075, is one of a number of recent ...

The team used advanced numerical simulations to model the magneto-thermal evolution of these stars, finding that a specific dynamo process within the proto-neutron star can generate these weaker ...

Neutron stars are among the densest objects in the universe. Their crust is far stronger than any material on Earth and a spoonful of this matter is heavier than a mountain. Talking about ...

When supermassive stars reach the end of their lives and explode in a supernova, the remnants form a super-dense object called a neutron star. Pulsars are neutron stars that spin rapidly ...

A sequel or potential reboot sequel in the same vein as the recent The Fairly OddParents: A New Wish revival would not be ...