The density of a neutron star is key to its use as a dark matter detector. Comments (0) When you purchase through links on our site, we may earn an affiliate commission.

They are so dense that a tablespoon of neutron star can weigh as much as a mountain." This supernova, called Supernova 1987A, occurred 160,000 light years from Earth in the Large Magellanic Cloud ...

The neutron star, residing in our Milky Way galaxy in the direction of the constellation Sextans and formally named PSR J0952-0607, is located roughly 20,000 light years from Earth, Romani said.

Amid a coming feast of neutron science — in biology, chemistry, materials science, drug development, archaeology — we might one day learn how our universe started out as cosmic leftovers ...

The neutron star, known as PSR J0952-0607, was discovered in 2017 about 3,000 light-years from Earth in the constellation Sextans. Recent measurements show the star weighs 2.35 times as much as ...

Neutron stars are incredibly dense objects about 10 miles (16 km) across. Only their immense gravity keeps the matter inside from exploding; if you brought a spoonful of neutron star to Earth, the ...

Since Neutron was first announced in late 2021, there's been a notable increase in R&D spending -- to just under $18 million per quarter, and just under $24 million in the most recent quarter.

It wasn’t until the 1960s that Zwicky and Baade’s hypothetical neutron stars were finally detected. Radio astronomer Jocelyn Bell Burnell noticed a strange, regularly pulsed radio wave signal ...

When a black hole and a neutron star finally meet, the result is cosmic carnage—and now, thanks to Caltech’s latest supercomputer simulations, we’re getting a front-row seat to the whole ...

A jet of radiation from two colliding neutron stars appears to be travelling at seven times the speed of light, according to measurements from the Hubble Space Telescope. Although this is merely ...

A detailed supercomputer simulation of merging neutron stars demonstrates that such collisions emit gravitational waves, rapidly form a black hole, and generate powerful jets likely responsible ...

Nothing inspires stellar awe quite like a neutron star.Often stretching only 15 miles across, these dead, collapsed stars can contain up to 2.5 times the mass of our own Sun (which is 865,000 ...