Dark matter and dwarf galaxies are areas that are not extensively researched. Dark matter is the gravitational effect without an unknown source. The dark matter halo that makes galaxies form inside them. Forms the idea that the dark matter simply binds quantum fields inside it. That halo makes the structure that makes conditions in it more stable that the star formation can begin.
Dwarf galaxies don't behave as they should. So, there are some kinds of problems. With that model. In galaxy formation models galaxies are formed in the dark matter halos. There are problems with fitting the dark matter halo, Lambda CDM (Lambda Cold Dark Matter), and the gravitational models together. In old dwarf galaxies, the CDM model stands. But in young dwarf galaxies, those models have no match or they are hard to match.
The thing that is interesting is are those dwarf galaxies near other galaxies? And if those dwarf galaxies are in the other larger galaxies like the Milky Way that pulls gas and dust away from those galaxies. There is a possibility that the bigger galaxies can scatter and pull the dark matter halo while dwarf galaxies are forming. In compact dwarf galaxies, stars are closer than they should be. That means there is less dark matter in a galaxy than in normal dwarf galaxies. If there is no dark matter that means stars can be closer to each other.
When galaxies form in the dark matter halo that thing causes an interesting model in the mind. Does the dark matter halo from the pool, where that energy travels a certain way forming the turbulence? Or is there some kind of channel between those stars and particles that they can start to accumulate in the dark matter halo?
There is the possibility that some dark matter particles are connected with ordinary or visible material. In those cases, the dark matter particles can stay near or between electrons and quarks. But it's hard to detect. If the WIMP is a very high energy, small particle. That particle can cause wave movement to act like solar storms when they impact Earth's magnetic field.
"A strange clustering pattern in dwarf galaxies hints that dark matter may be far more complex—and interactive—than we thought." (ScitechDaily, Are We Wrong About Dark Matter? Dwarf Galaxies Suggest So)
There is also a possibility that the WIMP has such a complicated structure. That it pulls energy inside it. And if the WIMP releases that energy very slowly that thing explains why those particles are so hard to detect.
If radiation slides over the particle without causing reflection it can make the particle turn like a stealth aircraft. The other version is that the dark matter sends such weak reflection that energy flow pulls that reflection with it. That is possible if the particle has the fuzz ball effect. The large energy field with layers surrounding particles that have a certain form can have a model that the quantum field that surrounds that particle can go in the whisk-shaped structure. The outcoming energy flow can push that energy field in the particle. That makes it possible for the particle to send reflection radiation. But that radiation is released so slowly that it's hard to detect.
There is a possibility that the dark matter can have weak, non-gravitational interaction. There is also the possibility that the dark matter can form black holes. The gravitational interaction between material and dark matter supports that model. So if the dark matter halo collapses because of its gravity, that means there can be a black hole that formed from the dark matter.
The black hole has its origin as dark matter. Is a similar black hole. As other black holes. The dark matter halo reacts to gravitation and the gravity field can pull that thing away. The quantum gravitational model introduces that all particles have gravitational fields. This field turns more dominant when the object's mass is growing. There is the possibility that gravitational waves can also have the wave-particle duality. That means crossing gravitational waves can turn into particles.
https://scitechdaily.com/are-we-wrong-about-dark-matter-dwarf-galaxies-suggest-so/
https://en.wikipedia.org/wiki/Lambda-CDM_model
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