A NASA space telescope will detect a staggering wealth of intricate gravitational lenses that could help unlock the mysteries of dark matter.

Collaboration has obtained a high-precision cosmic-ray boron spectrum in the energy range of 10 GeV/n–8 TeV/n, and discovered ...

What we saw in the DESI experiments, and now strengthened by our South Pole Telescope observations, is that dark energy is ...

The Nancy Grace Roman Space Telescope, set to launch in 2027, would focus on possibly 160,000 gravitational lenses, of which ...

"Using the new common signal, we can determine how much of what we're seeing is cosmic glare from light bouncing off the hood of the Cosmic Dawn, so to speak." ...

The new feature will filter out light pollution and noise to provide a high-contrast, clear view of celestial objects.

As far as cosmologists can tell, the mysterious force behind the accelerated expansion of the universe, a force that we call dark energy, remains constant. But it may not have done so in the past.

This dark matter makes up about 27 percent of the universe's total mass-energy content, 68 percent of which is made up of dark energy, with only 5 percent being "normal" matter, according to NASA.

A Hubble Space Telescope image of the face-on spiral galaxy Messier 101, with a stock image of dark matter in a beaker inset. A long-held theory about dark matter's role in galaxies has been ...

Dark Matter Technologies, formerly Black Knight Origination Technologies, is focused on mainly two things: the smooth transition to new owners, and lowering the cost to originate loans for lenders ...

Although invisible, its presence can be detected because it curves space-time. Large concentrations of dark matter in the foreground bend the light coming from background galaxies, skewing our ...

In 2008, the PAMELA satellite noticed an excess of energy that could be a signal of dark matter, a finding later confirmed by NASA’s Fermi Gamma-Ray Space Telescope.