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The mirror fields and electromagnetism.

The mirror fields and electromagnetism. 


Can we make a standing wave between Higgs bosons? Or can we someday create the standing wave between two Higgs fields? That standing wave could make the Higgs field-based levitation. 

Electromagnetism is one of the best ways to demonstrate negative energy. When the same poles turn against each other, it makes magnets repel each other. The thing that causes that repel is a standing wave between those poles. The electromagnetism causes flow that impacts in the middle of those magnets, and then that standing field pushes those magnets away from each other. 

Can we make a standing wave between Higgs bosons? Or can we someday create the standing wave between two Higgs fields? That standing wave could make the Higgs field-based levitation. 

The reason for that is that there is no place where that energy can dump itself. If the north pole turns against the south pole. That makes magnets pull each other because the flow between magnets goes to another (negative) pole that makes electromagnetic low-pressure between magnets. And that causes the pulling effect. 



So could hypothetical gravitons have south and north poles? 


Theoretically is a possibility that a theoretical graviton particle that should transport gravitation could have poles. The idea is that graviton could interact like a neutron star. The strong and fast spin around the axle of the graviton could explain why gravitation seems to have no poles. In some models, the graviton spins around two axles. The spin happens around the polar axle and equatorial axle. 

And that means the polar interaction between gravitons is so short-term that gravitation is a virtually neutral force without poles. The fast interaction periods can also explain why gravitation is so a weak force. If a graviton is a fast-spinning particle with a strong quantum field. 

That makes it possible that all wave movement travels around that particle without reflection. That makes reflection that pushes energy back to the point where the energy impulse comes. 

If material doesn't reflect it pulls all energy in it.  And sooner or later, that energy destroys the structure of the material. 


So what are Higgs bosons? 


Higgs boson is a rather small wave in the Higgs field. Those bosons have extremely short lifecycles. The spin of the Higgs boson is zero, but the life cycle of that massive particle is very short. 

In some visions, the Higgs bosons can stabilize by using extremely high-power energy loads. That thing makes it possible to create a standing wave between two objects, and the difference between those waves and other waves is that. 

Those waves are made by using the Higgs boson. The idea is that two layers that are opposite to each other can form a standing wave between two objects. And maybe that standing wave model is suitable for the Higgs field. 

Oppositely thinking, the hypothetical graviton is the opposite particle to the Higgs boson. The Higgs boson will interact short time. Graviton is a hypothetical low-mass particle that interacts with long distances. And that makes gravitation so interesting. 

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