Why are ghost particles called neutrinos are detected only in LHC (Large Hadron Collider)?

 Why are ghost particles called neutrinos are detected only in LHC (Large Hadron Collider)?

There are detected signs of neutrinos in LHC. 

The neutrino is one of the most mysterious particles in the universe. Those particles can travel through the planets without touching anything. And they are detected by benefiting Cherenkov radiation. The idea of a neutrino detector is when neutrino impacts the ice or water around the neutrino detector its speed decreases. 

And then that particle sends the blue light flash to the light detector. The neutrino sensor benefits the thing that the speed of light depends on the medium where the photon travels. The Cherenkov radiation shows that neutrino has mass. And that is opening very exciting views of the use of neutrinos. 

If neutrino would not have mass it would not transfer its kinetic energy to the neutrino detector in the form of a blue light flash. The Cherenkov radiation has caused an idea of the light wall. And there could be particles that are traveling faster than photons but nobody has detected that kind of particles yet.  The neutrino is sometimes introduced, as a "dark photon" that would reach the same speed as photons. 

Time dilation or time-traveling particle theory is one of the most fascinating and same time unbelievable ideas which purpose is to explain why some particles are materializing in the particle accelerators. 

Is the hypothetical tachyon particle the thing that causes the materialization of the neutrinos? 

In some of the most interesting theories, hypothetical tachyon particle that travels over the speed of light will impact particles in particle accelerators. Nobody has seen tachyon before. And that thing is purely hypothetical. The tachyon hypothesis goes like this: there is another universe at the speed that is the speed of light. And the speed of light is the thing that separates our universe from the tachyon universe. 

But there is a thing called "tachyon symmetry". That means that when the particle will reach the speed that is the speed of light there would be a tachyon that pushes the particle back to our universe or denies it to reach the speed of light. In some versions, the tachyon should be the distance of the impacting particle diameter from the particle that accelerates from our universe. 

When those particles would come near together. That thing causes that the wave movement between those particles creping. And then that creping wave movement forms the particle called neutrino or some other ghost particle between the tachyon and that particle that could be electron or proton. 

When the particle closes the speed of light the tachyon forms the interaction with that particle. When the particle reaches the speed of light that thing would cause that the wave movement between the tachyon. And that particle would turn to the neutrino. 

And then the tachyon denies that the particle cannot reach the speed of light. The thing that supports this theory is that the last couple of percent of the acceleration to the speed of light requires the most energy that is used in that process. But confirming this theory requires the prove that the tachyon existed. And its existence will prove by using scientific methodology. Before that, the tachyon and everything connected with it, are theories and hypotheses.

The idea is that the quantum entanglement over time causes the thing that looks like particles. 

In some theories, time dilation is the reason that ghost particles seem to materialize in the LHC. That means they would be time-traveling particles. That is the result of the particle impact tests that happened in the past or the future. The thing is that quantum entanglement has an effect over time. And that effect looks like some kind of particle. 

And that means that if there is a couple of the same way spinning quantum-size black holes in accelerator they can create wormhole or quantum entanglement from the future to the past. But in some other theories. The thing called quantum cone causes that the neutrinos will stop in LHC. The prime question is: why the neutrinos are detected only in the most powerful particle accelerator in the world?

"The quantum cone" theory

The reason why neutrinos can detect only in the most powerful particle accelerator. Can be the reason for that when the particles are traveling in that channel. They cause a similar effect with the airplane that travels in the air at extremely high speed. 

The idea is that the similar pressure cone that forms behind the aircraft will form around the particle. In that case, we could call that thing a quantum cone. When the particle hits the wall of the quantum cone, that thing will load it with energy. 

After that, the particle will go to the lower energetic area. And it releases the extra energy because energy flows always to lower energetic space.  And that energy release causes that it cannot go through another wall of the quantum cone. 

That means that the particle would cause the quantum shockwave around it. And if there is a low energetic area in that quantum cone that thing causes the situation where the neutrino will stop when it tries to travel across the quantum cone. When the neutrino will hit the edge of the quantum cone that are loads it with energy. 

After that, it would go to a low energetic area where it stops until it reaches the energy level that allows it to travel through the wall of that quantum cone.  This effect would stop neutrino for a while. But that thing requires more research for proving those things. 

https://phys.org/news/2021-11-physicists-neutrinos-large-hadron-collider.html

https://www.sciencealert.com/for-the-first-time-neutrinos-may-have-been-detected-at-the-large-hadron-collider

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

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

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