The Higgs bosons that spin is 0 should not contain things like W and Z bosons. The reason why Higgs boson's spin is zero is that it has no time for spin. The short life cycle of the Higgs boson is the result of the phenomenon that we see that particle only at the moment where it vaporizes. So there is the possibility that Higgs boson is naturally between gluon and quark.
And if that thing is possible, the Higgs boson's vaporization or turn to 2D material is the reason why the Higgs boson makes mass to material. When the Higgs boson acts like a balloon, it forms electromagnetic low-pressure that pulls energy out from the particle into the point where the Higgs boson is.
The Higgs boson is like a bubble in the Higgs field. And that thing could explain, why there are those divided particles in Higgs Boson. The answer for that thing could be in the standing wave. The existence of Higgs boson is a very short moment. And when that particle collapses the impact of electromagnetic fields that surrounds that particle falls in the point of Higgs boson.
So maybe the source of those particles that form when the Higgs boson falls is in the point, where electromagnetic fields around the Higgs boson are impacting. When those energy fields impact that thing forms the counterwave. And in that counterwave, the Schwinger effect can form short-term particles. The thing is that the Higgs boson is one of the most interesting particles in the world. The particle itself is a boson. But there is no force that the Higgs boson transports.
When we think that the Higgs boson gives mass to particles. That interaction might have a connection with that particle's extremely short lifetime. When Higgs boson falls the outside energy fields fill that point. That means energy travels to the point where Higgs boson has been. So if there are some particles between the Higgs boson, that thing makes that those particles will fall to the point where the Higgs boson has been before it collapsed to the 2D structure.
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Higgs Boson decays into.
"Bottom–antibottom pair (observed)Two W bosons (observed)Two gluons (predicted)Tau–antitau pair (observed)Two Z bosons (observed)Two photons (observed)Two leptons and a photon (Dalitz decay via virtual photon) (tentatively observed at sigma 3.2 (1 in 1000) significance). Muon–antimuon pair (predicted)Various other decays (predicted)" (Wikipedia, Higgs Boson)
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Could Higgs boson's natural position be between quark and gluon?
There is the possibility that the position of the Higgs boson is between quark and gluon. In that environment, high-energy quantum fields push the Higgs boson into a compact size. That thing means that the Higgs boson could be smaller than the gluons the strong nuclear force's transportation. But when particle accelerators collide with those particles.
That impact makes a situation where the quantum field anymore presses the Higgs boson. So the Higgs boson will blow to an extremely large size. And that means we see Higgs boson only at the moment where it vaporizes. So the collision in the particle accelerator simply releases the Higgs boson from its natural position.
If Higgs boson is between gluon and quark. That thing pulls them together. Particle accelerators and extremely high energy levels are not forming the particle. They just shoot them out from the material. There is the possibility that the Higgs boson is a very small particle when it's in its natural environment.
https://scitechdaily.com/unlocking-dark-matter-mysteries-through-gravitational-waves/
https://en.wikipedia.org/wiki/Higgs_boson
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