Apr. 5, 2024 — Scientists may be one step closer to unlocking one of the great mysteries of the universe after calculating that neutron stars might hold a key to helping us understand elusive ...
"The capture and annihilation of dark matter in neutron stars would provide a source of heating that stops the star from getting really cold." Scientists posit that some dead stars made from the ...
Dark matter is understood to interact “feebly” with the visible universe, but was that always true? Physicists have modeled the inflaton—a theoretical space scientists use to examine the ...
The proposed new dark matter detection method would look for frequent interactions between nuclei in a detector and low-energy dark matter that may be present in and around Earth. (Right) A ...
Their powerful gravitational fields could trap dark matter and unlike black holes, any radiation from dark matter won't be trapped behind an event horizon. So neutron stars are a perfect candidate ...
The universe is hiding something. Stars at the outer edges of galaxies whirl around the galactic center far more swiftly than the laws of physics say they should. At even larger scales, galaxy ...
If you buy through a BGR link, we may earn an affiliate commission, helping support our expert product labs. In the early 1900s, Albert Einstein proposed the theory of general relativity, which ...
If dark matter particles do collide with neutrons in the star, they will lose energy and become trapped. Over time, this would lead to an accumulation of dark matter in the star," Professor Bell said.
Roula Khalaf, Editor of the FT, selects her favourite stories in this weekly newsletter. Grunge is remembered for Nirvana and Kurt Cobain. His face still stares out from T-shirts; their songs are ...
Scientists posit that some dead stars made from the densest material in the known universe, so-called "neutron stars," could act as traps for dark matter particles that smash together at high speeds ...
Computer simulations by astronomers support the idea that dark matter—matter that no one has yet directly detected but which many physicists think must be there to explain several aspects of the ...