The fifth force can hide in atoms.

"The Standard Model of physics doesn't account for everything we see. (ScienceAlert)

Researchers hunt for the fifth force. It is possible that the fifth force is the mirror gravitation. The idea comes from gravity’s special nature.  Gravity has no repelling effect, so can the mythical fifth force have only a repelling effect. And could that force be the key to understanding why electrons don’t fall to the atom’s nucleus? In that new model, the fifth force is the interaction between neutrons and the atom’s electron shells or electrons. 

In this model, the interaction between electron and proton and electron and neutron are separated. The fifth force could explain why dark matter became more dominating than visible material, but why does dark matter have only gravitational interaction with visible material? 

There is a possibility that the fifth force’s origin is in the subatomic particles like quarks or neutrons. If a particle looks like a whisk it can collect energy or wave movement from its environment.  So-called superstrings form that structure. That causes oscillation and that oscillation sends energy waves to the middle of the particle. When those strings oscillate they send wave movement in both directions in and out from particles. That packs energy into the particle until it can break itself out. 

There are four fundamental forces that we know. 

1 Gravity

2 Electromagnetism

3 Weak nuclear force

4 Strong nuclear force. 

So where should researchers look for the fifth force? One of the most promising places would be in atoms. Researchers know the electromagnetic interaction that is the interaction between an atom's nucleus and its electron core. But the interaction between positive protons and negative electrons has the dominating effect on that thing. The missing interaction is the interaction between neutrons and electrons. Neutrons are neutral particles. They have N and S poles and that makes a model where wave movement with N-polarity hits a neutron's S pole possible. Some kind of wave movement can leave from the neutron's equator. 

In that model, a neutron collects or focuses quantum fields from protons and then that energy flow causes radiation to the particle’s equator. The thing that makes the fifth force interesting is that force could be missing gravity’s pushing effect. An interesting thing is that gravity has no pushing effect. So the fifth force can be the missing “antigravity”. There is also another interesting detail in the neutron’s structure. Those particles exist only about 15 minutes (880 sec.) outside the atom. 

That thing means that it’s possible that the “fifth force” blows neutrons. There are only three quarks in a neutron. The higher energy down quarks-pair and one up quark. Energy flows from down quarks to up quarks. That can form the situation that the energy stretches a quantum field around those quarks. And that can cause vaporization in quarks. But when we observe atoms we must remember that we see them as entirety. We see all of those four fundamental interactions. And that means if we want to see the fifth force we must filter maybe all other forces away. 

All fundamental interactions have their own transmitter particle. They all have the wave movement form that wavelength depends on the size of the transmitter particle. So theoretically we could transform gravity straight to the electromagnetic wave movement if we have the right particle. The gravity wave is the energy ditch that travels in the universe. When that energy ditch faces a particle it pulls a little bit of energy out from the particle. That energy is the wave movement that is possible to catch. This is one of the things that can revolutionize our way of thinking about material. 

https://www.sciencealert.com/a-fifth-force-of-nature-may-have-been-discovered-inside-atoms