The study suggests that in an intense environment, for example in the center of the Milky Way, it can accumulate dark matter that then disappeared and releases energy.
Such a process can prevent the cooling of the dwarfs into “dark dwarfs” – dull but long -lasting bright objects. The key to its recognition is lithium-7. It is destroyed in ordinary brown dwarfs, but the residues remain cold in the dark.
If scientists find large objects in which the lithium-7 is unexpected, it will become a strong argument in favor of the interactions of the dark matter.
Such findings will help candidates to narrow the circle of candidates for the role of dark matter particles – for example, excluding light particles such as axle.
Source: Ferra
I am a professional journalist and content creator with extensive experience writing for news websites. I currently work as an author at Gadget Onus, where I specialize in covering hot news topics. My written pieces have been published on some of the biggest media outlets around the world, including The Guardian and BBC News.
