Where did Higgs Bosons come from?
In some models, the Higgs boson is the particle that forms when the photon turns to some other particle. Nobody has ever seen that case happen. So that transformation is only a hypothesis.
But in that case hypothesis about photon transformation goes like this:
1) Photon.
2) Neutrino
3) Higgs boson
etc.
Above are three top particles of that chain from photon to an electron that is a stable lepton. In that model, the weak interaction of the photon and neutrino and their environment is that. The photon and neutrino are so high-energy particles that they tunnel through the quantum fields.
Or the photon's size would be precise right that energy that impacts that particle will replace the energy that travels out from it. So that thing can keep the photon's energy level the same as its environment. But because something must separate information from its environment.
That information (in this case: photon) can be separated from its environment. And there are two ways to separate information from the environment. The better-known version is the energy level. And another is the wavelength. A particle is an area that is separated from its environment. The thing that can separate it is the wavelength or energy level. So in this model, the photon is a particle that could have a different wavelength than its environment.
Where does the Higgs boson, the shortest living particle, come from? The Higgs boson's energy level is the highest of known particles. The problem is where that particle came from. It's a very difficult process to make observations of Higgs bosons. Because when that particle releases its energy. It turns into another particle. There are two possible sources for Higgs bosons.
1) Higgs boson could be an electron that has an extremely high energy level. And the expansion of that particle turns it into an electron through multiple stages where that particle takes a new form. In that model. The Higgs boson transforms into an electron through multiple bosons. And that thing means that the Higgs boson scales it through the elementary particle table.
2) Higgs boson forms in the whirling quantum field after the high-energy electron-positron collision. In that model, the Higgs boson is the whirl that forms when high-energy quantum fields cross each other. In that theory or model, the impacting quantum fields make whirls where the Schwinger-effect forms particle-antiparticle pairs.
Those short-living particles would exist in the quark-gluon plasma. Or more accurately saying, there is a possibility that those particles remained in gluon plasma before quarks started forming. Or maybe, some kinds of particles existed before gluons that transport the strong nuclear force.
In modern theories, gluons are the first particles formed just after the Big Bang. Quarks formed after gluons. But Higgs boson causes re-estimation of that model, and maybe there were some particles before gluons. Gluon is the boson, and quark is Fermion. And that means there must be something between those particles. Or gluon must have the ability to turn a fermion called quark.
That exists just after the most high-energy collisions. There is a possibility that some particles could exist in quark-gluon plasma. That thing requires a higher energy level than quark-gluon plasma that exists only in LHC (Large Hadron Collider). And before that, the quark-gluon plasma existed just after the Big Bang.
https://scitechdaily.com/the-higgs-boson-mystery-when-nature-defies-expectations/
https://en.wikipedia.org/wiki/Standard_Model
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