Can all fundamental interactions have particle and wave movement forms?

Image I: Standard model forces (Wikipedia, Fundamental interaction)

The movement of gluons is causing that the particles are turning old. When gluon moves between quarks in protons and neutrons that particle pushes the quark. The idea is that the movement of gluons is the source of the strong nuclear force. It would send the energy quantum through the atom. So in this version, all fundamental interactions have particle and wave movement forms. 

And this is the idea of the theories where the four fundamental interactions can interconnect to one natural force. The idea is that when the proton or neutron oscillates sends energy quantum through the atom. 

When the gluon hits the quark it causes that the shape of proton or neutron is chacing. That particle pushes its neighbor particle. And that causes the interaction that is called "weak interaction". Then that wave movement travels to the electron core. And that transforms it into electromagnetism. 

Finally when that wave movement is traveling out from the atom that turns to gravity. Gravity is the weakest of natural interactions. And the thing that the wave movement should travel from the nucleus of the atom through its electron core to outside it. 

Below: The list of fundamental interactions

Image II Fundamental interactions (Wikipedia,Fundamental interaction)

During that journey, the electrons and other nuclear particles will pull part of that wave movement themselves. So when the wave movement will travel through the electron core. The electron that travels across the wave movement will pull part of wave movement in it. The electron that travels across the wave movement will cut it. And if there are lots of electrons on that road, they will cut the wave movement to smaller pieces than if there are only small numbers of electrons where the wave movement impacts. 

The strong nuclear force or strong nuclear interaction is the thing that keeps protons and neutrons together. The transportation particle is the gluon that jumps between quarks inside protons and neutrons. The strong nuclear interaction is the most powerful of the known fundamental interactions. And that thing causes the question, why it's so powerful? Why annihilation is the most powerful reaction in the universe? 

The annihilation itself is the shockwave through the universe. When the particle faces its mirror particle they are turning to energy. Or more accurately to wave movement. This impact releases the subatomic particles or the superstrings that are forming those particles. 

The effect of the annihilation is simple. The core of the particle is open when the faces its antiparticle or mirror particle. And in that case, that thing releases quarks and gluons from the particles. Or in the case when an electron hits the positron the superstrings or the wave movement that forms electron releases. So is it possible that the speed of gluon is higher than the speed of light? 

When the gluons and quarks are releasing they are acting like balls that are released in the explosion. If the speed of those balls is higher than the speed of light that thing sends the pressure wall or soundwave through the air. In the quantum world that shockwave is called Cherenkov's radiation. That blue light flash is the thing that is seen in a nuclear reactor. 

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

Images I and II ():https://en.wikipedia.org/wiki/Fundamental_interaction