A team of theoretical astrophysicists has studied in detail a hypothetical form of dark matter that plays an important role in the formation of dark atoms. They found that the existence of dark atoms can drastically affect the evolution of galaxies.
We still don’t fully understand the vast amount of dark matter in the universe. We call it dark matter, but we still know a lot about it. To the best of our knowledge, dark matter is composed of some new type of particle that is currently unknown to modern physics. Whatever the particle is, it doesn’t interact with light and it doesn’t want to interact with normal matter except through gravitational forces.
Our understanding of this mysterious substance is lacking. More research needs to be done on the theories about it. Different models state that it can be made up of different types of particles. It could be the new force of nature. Four such specific particles are being studied at work in dark matter.
Nuclear dark particles can coalesce very quickly. A ‘shadow disk’ is formed in ordinary galaxies. From there, dark atoms continue to coalesce. Later it may sink into the center of the galaxy and increase in density.
All these effects of dark matter seem invisible on a cosmic scale. However, it influences the evolution of stars within the galaxy. This group of astronomers is trying to learn the details of the formation of dark atoms. This research will help unravel many mysteries of dark matter.