The mystery of photons

"The finding of the Majorana boson demonstrates that photons can be “split” into halves. Credit: Animation by LaDarius Dennison"  (Wikipedia/“Split” Photons – New Research Predicts the Existence of a Previously-Unimaginable Particle)

Photon is a particle that has no mass, but it can transmit energy. It's the only elementary particle that can reach the speed of light. And there is a question why this thing is possible? The reason why a single photon can carry information is that its core is not slight. There are waves at the core of that particle. And those waves make it possible that photons can carry information. 

Photons should have a mass that can transmit energy. Or actually, there is one thing that can explain this strange ability. That thing is connected with splitting photons. 

In quantum computer tests. Researchers recognized that photons can at least virtually split into two pieces. The virtual splitting means that the photon superposition itself with some other particle.

Sometimes researchers thought that a photon is two particles connected by some kind of small particle that is invisible. So the photon could be two photons. If photons are a two-photon quantum system that requires that the connection with those photons is extremely strong. 

And there could be something that connects those photons.  So, could that connector be a hypothetical graviton? But there is another thing that can make this connection interesting. 

Could photons be an empty quantum bubble? 

The one form of particles is ghost particles. The energy fields that are making bubbles. Some of those bubbles are very short-living. But there is the possibility that photon is the quantum version of the soap bubble. The energy bubble stays in its form because of the pressure of the outside quantum field. 

The elementary particles are hard to split. But quantum fields are quite easy to split and share. 

So one of the explanations for the special abilities of the photon is that is an empty energy field. The energy field can carry energy. And outcoming quantum fields are keeping those bubbles in form. Just like soap bubbles are keeping their form because of outcoming pressure. When the soap bubble is going too high the pressure will end. And that thing causes the explosion of that bubble. When we are transferring that model to the quantum world the destruction of photon means that the bubble turns to wave movement or superstring. 

Can we find the answer to that phenomenon from the strong nuclear interaction? 

Could gluons connect Majorana or some other fermions? The Majorana fermion was predicted in 1937 by the Italian theoretical physicist Ettore Majorana. Still, mostly hypothetical Majorana fermion has its antiparticle. There are some weak observations about that particle that acts like fermion. (Wikipedia/Majorana fermion)

And sometimes there is suspicion that the Majorana Fermion is some well-known Fermion that has a previously unknown energy state. That thing can explain why nobody made a confirmed observation of that particle that should be easy to find. 

And in 2020 there were the first observations about those hypothetical fermions. So there is a strong possibility that Majorana fermion exists. (MIT News/ First sighting of mysterious Majorana fermion on a common metal)

Can gluons form the electron crystals along with electrons? Or can gluons connect things like photons?  Gluons are particles that connect quarks to protons and neutrons. But is it possible that gluons can connect also photons and electrons to balls called photons and electron crystals? Could those hypothetical particle groups be real? 

The strong nuclear interaction or strong nuclear force is the interaction between quark and gluon. That means there are particles called gluons in protons and neutrons. And they are connecting quarks to one entirety. The gluon is the transmitter particle of the strong nuclear interaction that connects quarks to one entirety. 

But could gluons connect also other elementary particles together? Can gluon make connections between electrons? If that thing is possible and can be proven. That ability would make it possible to see a new type of material. If gluons can connect electrons to a stable structure. That thing makes it possible to make the new type of electron crystals. 

That kind of hypothetical gluon-electron crystals can be the possibility to create invisible material. When outcoming radiation hits those electron crystals. Those electrons are sending photons of light quanta. And that light quanta can fall the wave movement that impacts to those electron crystals.

https://energyeducation.ca/encyclopedia/Strong_nuclear_force

https://scitechdaily.com/nuclear-reactor-helps-scientists-catch-and-study-ghost-particles/

https://scitechdaily.com/split-photons-new-research-predicts-the-existence-of-a-previously-unimaginable-particle/

https://en.wikipedia.org/wiki/Elementary_particle

https://en.wikipedia.org/wiki/Fermion

https://en.wikipedia.org/wiki/Fundamental_interaction

https://en.wikipedia.org/wiki/Ghost_(physics)

https://en.wikipedia.org/wiki/Gluon

https://en.wikipedia.org/wiki/Majorana_fermion

https://en.wikipedia.org/wiki/Neutron

https://en.wikipedia.org/wiki/Photon

https://en.wikipedia.org/wiki/Proton

https://en.wikipedia.org/wiki/Quark

https://en.wikipedia.org/wiki/Standard_Model

Image 1) https://scitechdaily.com/split-photons-new-research-predicts-the-existence-of-a-previously-unimaginable-particle/

Image 2) https://news.mit.edu/sites/default/files/styles/news_article__image_gallery/public/images/202004/MIT-Majorana-Gold-01_0.jpg?itok=X9AwFkN_