Misplaced Neutrons lead confidential life like dark matter is a puzzle that needs to be set right. Neutrons are discovered inside every atomic nucleus, they might appear very ordinary, but they possess stupefied physicists who attempt to evaluate the duration that these particles can exist outside an atom. Since the past ten years researchers have attempted two types of experiments that have produced contradictory results. Scientists have grappled to elucidate the disparity. However, a new research predicts malefactor may be one of the biggest mysteries of all: dark matter.
Scientists are quite sure the universe entails more matter than that can be observed by humans, and their best estimate is that it imbibes invisible particles. But what seems to be appealing is that the Neutrons are decomposing into these undetectable particles. This idea, put forward by University of California, San Diego, physicists Bartosz Fornal and Benjamin Grinstein in a paper posted this month to the physics preprint site arXiv.org, would elucidate that one kind of Neutron experiment steadily calculates a different value than the other. If that being the case then it could also offer the premiere method to retrieve the dark matter particles physicists are long have been deciphering.
The scheme has already grasped numerous researchers formulating Neutrons lifetime measurements, and some have speedily clambered to rummage for proof of it in their experiments. If neutrons are converting into dark matter, the procedure could also offer gamma-ray photons, according to Fornal and Grinstein’s calculations.