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A small piece of writing about the Higgs boson and its strange qualities

 

 


 

Is the spin of the Higgs boson equal to zero really or virtually? 


When particle accelerators are uncovering the Higgs' boson. They don't create it. They are releasing it by removing wave movement from around that boson. 

There is the possibility that Higgs's spin of Higgs's boson is virtually equal to zero. One version of that idea is that the Higgs's boson is in the extremely large quantum field. 

That means that the quantum field just slides over the other quantum fields. Or the spin of that particle is so high that we cannot recognize the changes in the wave movement. 

Theoretically, particles are like yarn balls. The particle is wave movement, turned to a ball-shaped form. There is "hair" on that particle. And when that "hair" is touching the outside quantum field it would slow its spin. During that moment the particle sends wave movement. 

If there is no hair on that particle it would not be slowing. And that means it would not send wave movement or the wave movement is straight or monotonic like some "OOOO". So we cannot detect that wave movement because it's monotonic. Changes in the particle's spin speed are the thing that causes the wave movement that sends wave movement and turns the particle detectable. 

Another version is that the particle's spin is extremely high that its hair makes the electromagnetic vacuum around it. That thing causes the phenomenon, where the particle has two quantum fields. The outer and inner quantum fields. 

If the quantum field is too large, the wave movement from the inner quantum field disappears. Or the observers cannot separate it from the shaking or waving of the larger quantum field.  If the quantum field of the small particle is too large it collapses. Because the energy from outside pushes it to a smaller size. 


Why Higgs' boson is so dangerous?


Higgs' boson is the only known scalar boson. The spin of those bosons equals zero. That means there is no side-moving wave movement. And that means the Higgs' boson is extremely hard to see. There is the possibility that Higgs' boson involves in all other particles. So if some kind of energy load is coming through the Higgs' boson that causes the phenomenon where the energy load that comes from Higgs' boson is ripping all other Higgs' bosons into pieces. 

That thing will erase all material from the space. The term scalar boson means that they are like the nucleus of all (or almost all) other elementary particles. And the other particles are the superstring, wave movement (or information) that is accumulated at the surface of those bosons. And the hypothetical graviton particle is the tensor inside Higgs' boson. 

But there is another possibility that can explain the strange behavior of the Higgs' boson. The spin of the particle can equal virtually zero. That thing means that the particle is smooth, as I wrote many times. The idea of the virtually zero spin means that there is no interaction or changes in the energy level of the quantum field that surrounds the Higgs' boson. 

The term "spin" doesn't only mean that the particle is rotating. That term can also mean the interaction between the particle and quantum fields around it. If there is hair on the particle, that hair causes changes in the quantum field around the particle. If the spin of the particle is very high we cannot detect the changes in energy level in the quantum field of the particle. 

Or actually, the hair must be high enough that it can come out from the particle's quantum field. The hair of the particles is sending radiation to the particle's quantum bubble. And that causes interaction between the outside quantum field. The thunder that makes it possible to see particles are coming from the particle's quantum field and outside quantum field interaction. 

So if the hair of the particle is inside the particle's quantum field its quantum field is smooth. That means the interaction between particles and outside quantum fields is like interaction with smooth surfaces. So the interaction is silent. If the Higgs' boson is released from other elementary particles. It hovers in the extremely large quantum field. That quantum field makes it impossible that the hair of the particle cannot reach the edge of its quantum field. 

And if the only thing that sends some kind of wave movement or chancing wave moment is only the nucleus of that Higgs' boson. That thing means that this radiation resonates only with other Higgs's bosons or the interaction happens only between other nucleuses Higgs' bosons. But that interaction requires that the Higgs' boson is released from its core. And it would very fast collect superstrings around it and form the new particle. So, that means Higgs' boson is in all other particles but only the highest energy levels can release it by removing superstrings around it. 


See also:

Higgs boson

Scalar boson

Standard model of physics


https://miraclesofthequantumworld.blogspot.com/


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