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The idea that dark matter could be composed of glueballs, which are hypothetical bound states of gluons, has been proposed in some scientific theories. Gluons are the particles responsible for mediating the strong force, which binds quarks together inside protons and neutrons.

In the early universe, it is believed that there was a phase of matter called quark-gluon plasma (QGP), where quarks and gluons existed in a deconfined state due to the high temperatures and densities. As the universe cooled, the quarks and gluons underwent a process called hadronization, forming protons, neutrons, and other particles we observe today.

Some theories suggest that during this hadronization process, stable glueballs might have formed. These glueballs would be composite particles made entirely of gluons without any quarks. If stable glueballs exist, they could potentially be candidates for dark matter.

However, it's important to note that the nature of dark matter remains a mystery, and the specific composition and properties of dark matter particles are still unknown. While the glueball hypothesis is intriguing, it is just one of many possibilities, and further experimental and observational evidence is needed to confirm or refute these theories.

Scientists are actively investigating various dark matter candidates using a combination of astronomical observations, particle physics experiments, and theoretical modeling. Future discoveries and advancements in our understanding of both dark matter and the fundamental particles of the universe may shed more light on the true nature of dark matter.

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