One of the greatest mysteries of the universe is dark matter. New research suggests we may be able to learn more about matter, which makes up to 85% of the matter in the universe. The new theory that has now emerged is about dark matter, which consists of particles that communicate with each other in ways that are not yet known to us.
Current theories tell us that dark matter is slow-moving massive particles that do not interact with each other or with baryonic matter (the stuff we know objects like stars and planets are made of). However, we cannot solve some problems with these types of dark matter claims.
The first problem is the density of dark matter halos in massive elliptical galaxies. Observations show that it is much higher than conventional models of dark matter predict. This contradicts the current theory of dark matter, which assumes lower values. The second concerns particularly diffuse galaxies, whose dark matter halos appear to have a really low density.
Scientists from the University of California, Riverside They decided to handle it differently. They built simulations based on real astronomical observations and took into account the fact that dark matter somehow “interacts” with itself. It is these “interactions” by the mysterious “Dark Force” that may be the key element that holds it all together.
The theory of self-interacting dark matter suggests that dark matter particles interact much like baryonic particles, which communicate through electromagnetism and nuclear transformations. Not only is this a major breakthrough in the potential study of dark matter, but it also highlights the role of artificial intelligence in space research. The simulations – based on astronomical observations and powered by artificial intelligence – are, as you can see, an important tool for exploring cosmic mysteries.
Scientists say the recent successes may encourage other scientists to conduct further research, especially in the context of future observations from modern telescopes – including the James Webb Telescope and the Observatory. Vera Rubin. Dark matter remains one of the universe’s greatest mysteries, but new theories and advanced technologies allow us to better understand its extraordinary nature.
Scientists point out that research does not provide clear answers yet – this means that dark matter may be more mysterious than we currently think. The world of science is facing another great revolution that may completely change our view of the universe. Solving the mystery of dark matter may be a turning point in the context of other theories that are still awaiting the achievement that many scientists dream of.
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