See a pair of superheavy neutron stars collide in this simulation with gravitational wave audio. "An audible tone and a visual frequency scale (at left) track the steady rise in the frequency of ...

Caltech simulations reveal what happens when black holes collide with neutron stars—violent cracking, intense shock waves, ...

The bold question-askers at What If warn how a black neutron star could destabilize Earth’s orbit and wreak havoc.

What would happen if you put a baseball-sized piece of neutron star on the Earth? Would it fall to the core of the Earth and ...

An artist's concept of a black hole orbited by a neutron star. Image: Caltech/R. Hurt (IPAC) When a black hole and a neutron star finally meet, the result is cosmic carnage—and now, thanks to ...

A neutron star's final moments may spark violent starquakes, monster shock waves, and even a fleeting, never-before-seen object called a black hole pulsar.

The precursors of heavy elements might arise in the plasma underbellies of swollen stars or in smoldering stellar corpses. They definitely exist in East Lansing, Michigan.

Aiming to resolve the "neutron star hyperon puzzle," the study of hyperon potential has emerged as a frontier topic in the interdisciplinary field of nuclear and astrophysics.

Figuring out the ages of stars is fundamental to understanding many areas of astronomy—yet, it remains a challenge since ...

For astrophysicists, neutron stars stand out as objects of irresistible fascination — perhaps, in part, because of how difficult they are to decipher. But calculations conducted on the Frontier ...

Scientists found in 2020 that gravitational waves detected a year earlier came from two neutron stars — dense leftovers of exploded stars — paired up in a system 3.4 times the mass of the sun.

The discovery of a metal-rich star packed with both light and heavy elements hints at exotic stellar explosions and the role of ancient dwarf galaxies in seeding the cosmos with uranium and thorium.