Dark matter might not be what we thought. (again)

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

Dark matter or the invisible gravitational effect could explain something about dark energy.

There are galaxies full of dark matter. And galaxies, there is no dark matter. So in theory, dark matter can form glimpses that we can call planets or dark matter nebulas. The problem is that we can see only the gravitational effect that comes from something invisible. So the second dominating effect in the universe is almost unknown. 

Dark matter glimpses send gravitational waves similar way to all other massive targets. And that means when some particle travels through the dark matter nebula that nebula pumps gravitational energy to that particle. 

Sometimes introduced a theory that dark matter is virtual material. In that case, the dark matter or that gravitational effect is formed by the maser effect of the gravitational waves. When gravitational waves impact together. They have a similar effect to all other wave motions. When wave motion impacts other wave motion that has the same frequency. That increases the power of the wave motion. Same way as gravitation turns the direction of photons. 

It turns the direction of gravitational waves. In the same way, gravitational lenses are turning the direction of light. They are turning in the direction of gravitational waves. So if gravitational waves are traveling through the focus of the gravitational lens. That increases the power of the gravitational waves. 

When that particle comes out from the dark matter cloud it sends extra energy as the radiation quantum. The same way the neutrino acts when it impacts with neutrino detector.When a particle that has mass impacts water it sends a blue light flash. 

Same way when all other particles are slowing in the universe. They are sending light quantum. So when dark matter glimpse accelerates the particle it must release that extra energy when it slows. And in this point, we must realize that the speed of light might be different with dark matter than visible matter. 

When dark matter sends energy quantum that thing acts like a photon. Se that energy quantum faces the crossing wave motion. If the source of that energy or light quantum is in the dark matter particle it interacts with the energy quantum that is coming from other dark matter particles. 

But if that thing is true and dark energy is the radiation that comes from dark matter. That causes this part of the energy sources are not involved in calculations. And that thing explains why there is too much energy in space. 

The fact is that there is the possibility that dark matter is virtual material. In that case, the thing that makes this gravitational effect is the maser emission that affects gravitational waves.

Gravitation is the wave motion. And that means it's one kind of radiation. If gravitational waves impact each other, they form a similar effect to lasers and masers. When gravitational waves impact each other, that increases their power. That thing means that gravitational waves can theoretically form objects like black holes. 

When somebody says, that a black hole formed from dark matter or straight from gravitational waves that thing doesn't mean anything about the shape of the black hole. The black hole is always similar. Material that forms this thing is packed in a form called the singularity. In that form time, and material are the same.  

Even if a black hole is formed of antimatter. That material cannot react. The massive gravitation will make the annihilation impossible. And even if a thing may pull radiation black inside it. So that annihilation will be invisible from the outside of the black hole. Except that object could send the gravitational waves at that moment. 

https://astronomyandtechnology.blogspot.com/

Time reversal symmetry is broken in the superconductor.

"Discovered time-reversal symmetry-breaking fields imply the presence of long-theorized ‘orbital currents’, where charge flows spontaneously in loops around the unit cells of the kagome lattice. Credit: Paul Scherrer Institute / Mahir Dzambegovic" (ScitechDaily/Time-Reversal symmetry-breaking Magnetic Fields Discovered Inside a Kagome Superconductor)

The time-reversal symmetry is broken in the superconductor. That means laws of physics and time can go forward and backward in that quantum system. This thing means that the system can destroy and recover information. And that thing makes this kind of system interesting. The ability to affect backward in time is fascinating. That ability makes it possible to fix errors and retake things in quantum computers. But as we know. 

The time-reversal symmetry, or rather saying, breaking that symmetry also makes it possible to create quantum radars. That can get information from the future to the past. Even if that system can bring data from the second away from the future it can give systems one second more time to react to things. That time is extremely long in the time of quantum computing. But it can also make it possible to make the systems that can predict outcoming effects more accurately. 

The thing is that nanotechnology allows us to create systems that can see to the future. Or if we are more accurate we might say that it brings data to the observer earlier than it reaches the observer in nature. The idea is to create extremely long quantum entanglement. As I wrote many times before quantum entanglement is like a long stick. This is the reason why it can bring information faster than the speed of light. 

The quantum entanglement is moving with the speed of light. But because its two particles are connected by a "stick" or energy channel they can bring information to the observer faster than it travels in the natural environment. Another way is to create an extremely long absolute vacuum where are no quantum fields. 

In that tube, photons can travel faster than normal space. The fact is that this kind of system can bring information from the flares of the Sun faster than otherwise. In that system, the photon is traveling in a synthetic quantum channel. And it reaches Earth earlier than a photon that travels in the regular universe. But seeing real things from the future requires some other systems. 

One version is to create the quantum entanglement where the other part will stress with energy. That energy stress should cause the time dilation in another part of that particle pair. And that thing makes it possible to bring information from the future. 

https://phys.org/news/2021-07-two-dome-superconductivity-kagome-superconductor-high.html

https://scitechdaily.com/time-reversal-symmetry-breaking-magnetic-fields-discovered-inside-a-kagome-superconductor/

Image: https://scitechdaily.com/time-reversal-symmetry-breaking-magnetic-fields-discovered-inside-a-kagome-superconductor/

https://thoughtsaboutsuperpositions.blogspot.com/