A particular patch of the universe that glows brighter where there are dense patches. This is a stark contrast to areas with sparse patches of matter.
The study derived its data from the dark energy survey (DES) that was postulated by a physicist to be the framework of all matter. Compiling all the images and finding from the Fermi Gamma-ray Space Telescope, that track gamma radiation bursts anywhere in the cosmos. In does it in high orbit, which is more efficient than earth-based ones.
One of the scientists on the project is Daniel Gruen from KIPAC (Kavli Institute for Particle Astrophysics and Cosmology), who worked on the data with his fellows on the study. There was a mismatch in expect results that bewildered the scientists. Pointing the need to adjust current models that have gamma radiation or maybe it is the dark matter in the equation.
Light in its most energetic state is gamma radiation, usually seen in dramatic cosmic events like supernovae's, neutron stars that beam it from deep in the galaxies. When supermassive blockholes snacking on a star or gas inside a galactic core, there is gamma energy given off
When gamma radiation is abundant in some places of the universe, it can be the result of dark matter particles annihilating one another. About 85% of the reality we call the universe has bones and structures that are made of dark matter.
Should scientists erase all sources of dark matter or dark energy, it will not be dark. Pockets of space will still be radiation gamma-ray, even in the blackest parts. The dark matter is everywhere when until proven not to exist.
Both the Fermi and DES maps are thought to be different, both complete each other. It deviates from the assumption that they are different, data points to another result. Looking at the parts that are densely packed with the matter, is more energetic while less dense parts are not so active.
Blazars are filled with gamma radiation, which is like a celestial light show. Blazar are active galaxies that have a supermassive temporal anomaly or "Blackhole" in the center. Greedily these gigantic space anomalies eat gas and eject gamma rays after absorbing the gas.
Researchers assume that blazars are not the answer to examine gamma radiation and mass, to account for dark matter exploding as an answer. Another answer would suffice, but it needs more evidence and study to prove it.
To a certain degree, blazar energy radiation does answer the less intense energies produced. A problem will arise that will explain high powered gamma radiation. Two options can be considered to answer the question until one is devise a better construct or model of blazars and gamma radiation has another source as well.
Or maybe dark matter is the primary substance, weakly interacting massive particles (WIMPs) that go boom when colliding with another Wimps. Should there be a flood of gamma rays, it is a matter rich particle colliding to form radiation. No one has captured or documented dark matter, gamma radiation is abundant in the universe too. The whole point is that dark matter might be destructing itself to generate gamma radiation in the galactic backdrop.