The rate at which the universe is expanding is expressed as a value called the Hubble Constant, generally abbreviated as “H 0 ...
The Big Bang may not have been the origin of the universe's most mysterious matter. Instead, dark matter could have been ...
Dark matter, which makes up 80 percent of all matter in the universe, may have formed in the very short time before the big ...
Ultra-sensitive detectors have observed neutrinos from the Sun, whose signals mimic those expected to be produced by elusive ...
Gamma rays emerging from neutron stars at the hearts of supernova explosions could solve the mystery of dark matter — in just ...
Their theory suggests that dark matter might have originated from a separate "Dark Big Bang," occurring shortly after the universe began. For decades, scientists have believed that all matter in ...
Energy transition Dark matter may have been created after the Big Bang, something that could soon be tested by gravitational ...
A team of researchers from the University of Texas at Austin (UT Austin) in the US has proposed a new model, indicating that ...
Since Vera Cooper Rubin’s breakthrough in 1977, a wealth of evidence has been accumulated through astronomical observations ...
A self-correcting atom interferometer amplifies signals, aiding detection of ultra-weak forces from dark matter, dark energy, ...
The DESI project previously reported that dark energy — long thought to be constant — changes over time. A new analysis reaffirms that claim.
Currently, dark matter detection requires specialized laboratories with costly equipment. ODIN, which combines principles of ...