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The new type of magnetism breaks the limits. And it also gives a chance to model gravitation.

 The new type of magnetism breaks the limits. And it also gives a chance to model gravitation. 


Intense laser rays can transform a solid's magnetic less than an attosecond. That means the laser rays are turning some components in the atomic structure in the same direction. And that thing makes those structures magnetic. Magnetization is the case, where all poles in the metallic grid are turning in the same direction. The laser pulses are acting like wind, which affects the atoms in those structures and then it will make them magnetic. 

Maybe the gravitational effect is similar. There is a possibility that gravitational waves or waves in Higgs field are turning quarks or gluons in the subatomic structures into the same direction. Or they would turn those structures acting like magnets. 

"An intense laser pulse is shone onto the material, inducing ultrafast spin flipping processes that occur on a timescale of ~100 attoseconds. Credit: © J. Harms, MPSD" (ScitechDaily.com/Ultrafast Magnetism: Intense Lasers Magnetize Solids Within Attoseconds)


But the structure where that thing affects is smaller than a structure that forms electromagnetism. That thing makes gravitation so universal force. The reason why gravitation has no poles, or it can pull all particles including photons, means that there is some structure in all particles that makes gravitation touch it. 

So could gluon and photon be the same particle? Gluon is the transmitter-particle of strong nuclear interaction. And is that particle so-called chameleon particle, that makes a gravitation effect to all particles including photons? In that model, the photon is the particle that turns the Higgs field into a roll around it. 

So gravitation could affect the Higgs field around the object. But there is a possibility that this interaction happens through photons. That means the photon is the axle that aims the Higgs field through the particle out from its poles. The photon would make an axle where the Higgs field impacts. And if a photon can aim the radiation of the Higgs field in certain directions, that means that the outcoming Higgs field replaces the field and that the photon aims out from the poles of the particle. 

It affects structures that are inside protons and neutrons. So those structures might be quarks. Or maybe they are gluons. There is a theory that maybe photon and gluon are the same particles. And the photon that is trapped between quarks inside the proton's and neutron's structure are photons. The thing is that gravitation affects also photons, and that means there must be the same structure in every single particle in the universe. So could a photon be that structure? 


https://scitechdaily.com/ultrafast-magnetism-intense-lasers-magnetize-solids-within-attoseconds/


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