Black holes and dark matter.

Can the so-called Semi-Dirac particle explain why we cannot see the hypothetical WIMP? 

All black holes are not supermassive. The reason why I call black holes supermassive gravitational objects is that they are the only known objects that pull light inside them. That effect is possible behind the point called the event horizon. The back holes should pull dark matter inside them. Because. There is a gravitational interaction between dark and visible matter. That requires that the dark matter have a particle form. 

Dark matter can explain many things in the universe. Dark matter means gravitational waves whose origin is unknown. Sometimes. Researchers think that mysterious weakly interacting massive particles (WIMP) can be a source of the gravitational effect. Researchers have not seen any WIMP yet and that makes the dark matter more interesting than nobody expected. 

The dark matter is one of Scrödinger's cats. The matter exists because it sends gravitational waves. But doesn't exist because there are no other interactions. 

Then researchers found one interesting particle called a Semi-Dirac particles. That particle can tell why dark matter has no other than gravitational interaction. 

Could a WIMP be some kind of Semi-Dirac particle? Researchers found a Semi-Dirac fermion that has the same time mass and no mass. 

The new particle has mass when it moves in one direction. And that a Semi-Dirac particle has no mass when it travels in another direction. So can the WIMP be the extremely light version of the Semi-Dirac particle?  

The WIMP can have no mass when we see it from the gravitational center. That means the WIMP can have a form that makes it turn its massive side away from the gravitational center. 

But could the new fractional excitons explain the WIMP? The Fractional exciton is the quasiparticle, that has the shape of the chameleon particle. The same particle has the shape of a fermion and boson. So could there be some kind of fractional Semi-Dirac particle that has the mass when it travels to another side? And that is massless when it travels to another side. That chameleon Semi-Dirac particle means a particle that is like a Semi-Dirac fermion and a similar boson at the same time. 

Maybe WIMP is a particle. That has some kind of photon-type ring connected to its other side. That energy ring can make the situation that the energy travels around WIMP that way it turns the mass away from the gravity center. 

Maybe that energy ring forms a situation where the energy will focus on the other side of the WIMP. Or maybe WIMP is some kind of quasiparticle that forms when energy focuses on some other particle. That can turn a quark or electron into a quantum-sized black hole. When energy injection ends that black hole vaporizes. And that releases energy. That is stored in that black hole. So, that means the hypothetical WIMP is the source of dark energy. 

Sometimes, it is believed that the gravitational wave is the stretched form when some other radiation type interacts with its environment. 

Black holes are things that are hoped to help to solve problems about the mysterious gravitational waves. And maybe the massive redshift of those supermassive objects tells something about the form of gravity. Gravitational waves may be like moving ditch. The gravitational wave would be like a traveling ditch in Higgs field. 

The gravitational waves form when the particle binds the Higgs field into itself. So that way thinking dark matter is something. That binds Higgs field into itself. The Higgs field is the base energy field in the universe. That field is the thing that makes other waves travel in it. The question is can wave movement travel in a so-called absolute vacuum there are no electromagnetic fields? 

The answer is that the wave movement that travels in the absolute vacuum forms a so-called traveling field. But the absolute vacuum stretches that field. To exist the wave requires resistance. Without resistance, the internal energy in a wave pushes it straight. The black hole is like all other gravitational centers. It's more powerful than the so-called regular gravitational center. 

https://scitechdaily.com/mystery-of-the-milky-ways-stellar-streams-solved-by-dark-matter/

https://scitechdaily.com/new-quantum-particle-discovery-set-to-revolutionize-physics/

https://scitechdaily.com/totally-unexpected-scientists-stumble-upon-a-bizarre-particle-that-defies-the-rules/