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The neutrinos, and dark matter

Could the source of dark energy be in the WARP bubble around some particles that are in extremely high energy levels? When a particle sends radiation that comes through that WARP bubble its speed is higher, than without that bubble. And when the bubble is gone. That field sends similar radiation to Cherenkov's radiation. 

One explanation for dark energy is material that sends energy or wave movement very often and with very high levels. If that thing is true the reason for dark energy is that some particles in our universe are in the WARP bubbles. 

And those bubbles make energy travel out from particles at a very high speed. The thing that forms the wave movement is the superstrings. When that energy or wave movement hits the Higgs field around that particle it sends one version of Cherenkov radiation. And that thing could explain why Dark Energy is hard to detect. So when the superstring hits the Higgs field it sends one version of Cherenkov radiation. 


"Universe Dark Energy-1 Expanding Universe"

"This diagram reveals changes in the rate of expansion since the universe's birth 15 billion years ago. The more shallow the curve, the faster the rate of expansion. The curve changes noticeably about 7.5 billion years ago, when objects in the universe began flying apart as a faster rate. Astronomers theorize that the faster expansion rate is due to a mysterious, dark force that is pulling galaxies apart".

Credit: NASA/STSci/Ann Feild" (https://science.nasa.gov/astrophysics/focus-areas/what-is-dark-energy)


In some theories, dark matter is bi-polar WIMPs (Weakly Interacting Massive Particles) that rotate between those poles. There is the central axle in that particle that makes it rotate like the planet. But there is more about that thing later in this text. In this text, "regular material" means visible material. Dark matter is 85% of the universe's material. 68% of the energy in our universe is dark energy or dark wave movement. 

 


Maybe neutrons can give a tip, about what dark matter looks like. 


Possibly there are three types of material in the universe. 


1) White or regular material like electrons, protons, and neutrons. 

2) Grey material or WIP (Weakly Interacting Particles). 

3) Dark matter. The particle's only interaction is through gravitation. There is the possibility that WIMP (Weakly Interacting Massive Particles) is the thing that makes dark matter. 

The WIMP might have a different type of spin than regular material. Or it might be material that sends radiation that forms the WARP bubble around those particles. 

Neutrinos are weakly interacting particles or WIPs. That means their energy level is almost the same as their entirety. If the energy level is higher than it's the environment it sends radiation. And the difference between the energy level of a particle and its environment determines how often a particle sends radiation. 

And the higher energy level particles like Top Quark sends energy impulses more often than neutrinos. Because neutrino sends radiation or wave movement so rarely, it's hard to detect. When a particle sends radiation it will transfer energy out from it which is the mark that the direction of the particle's spin is changing. 

The spin of a neutrino is 1/2 like an electron. And that means neutrino has many similarities with electrons, but the spin of that particle is weaker or slower, but otherwise similar to electrons. When a neutrino's spin direction changes it sends that radiation. 



So neutrino is turning back and forth like an electron but the movement is so slow that it's hard to see. And that very slow spin is creating one model. That gives neutrinos the ability to travel through Earth. The idea is that the Higgs field that gives mass to that object will travel through that particle without any interactions. 

That means the interaction between the Higgs field and neutrino is weak. And the situation is similar to the case where somebody puts the cage in the river. If we think that water is the Higgs field it flows through that cage, and it's not taking it with the flow. 

So could the dark matter be the bipolar particles that rotate around their axles? Dark matter is the strange gravitational effect. The connection between dark energy and dark matter is not confirmed. But there is the possibility that those things have a connection. 

If we follow that model in the cases of dark matter, there is a small possibility that the dark matter is a particle. That has an extremely weak spin. Or the particle can spin around the central axle like the planet. That means the dark matter WIMP (Weakly Interacting Massive Particles) could be the bi-polar extremely high-energy particle that spins like a planet. 

And in that case, the energy pikes are pushing the Higgs field away from those particles. The reason why an electron's spin is 1/2 is that it has multiple poles. But if the particle has only two poles it could rotate around its axle. 

But is it possible that the particle just shakes back and forth? What if that movement is extremely small when it sends very weak radiation? If the particle's spin is more than 1/2 like 1/6 or maybe 1/300, the spin is so small, that the particle is like a ghost. The interaction with the Higgs field is much weaker than the Neutrino. Even if that hypothetical material sends some kind of wave movement very often that wave movement is so weak, that material is not at least easy to see. 

There is the possibility that there is also a material or particle whose spin has a very high frequency. Theoretically is possible to turn an electron's spin to 1 if its energy level is rising high enough. If there is a particle that spin is 1 or higher. There is the possibility that the particle rotates so fast that it makes the hole in the Higgs field. 

If the energy level of the particle is high enough it sends radiation very often. That radiation can push the Higgs field from around those kinds of particles. In that case, the radiation continues all the time. And that means there is no visible stop in the energy transmission. 

That kind of particle is hard to see because there are no changes in its energy transmission. And the particle is in one kind of WARP bubble. That can cause that energy travels away from those particles faster than cosmologists calculated. 


https://explainingscience.org/2015/01/25/dark-energy-over-time/


https://science.nasa.gov/astrophysics/focus-areas/what-is-dark-energy


https://en.wikipedia.org/wiki/Dark_energyr


https://en.wikipedia.org/wiki/Dark_matter


https://en.wikipedia.org/wiki/Electron


https://en.wikipedia.org/wiki/Neutrino


 https://en.wikipedia.org/wiki/Weakly_interacting_massive_particle

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