Pauli Exclusion Principle. And the universe's existence.

Could Pauli's Exclusion Principle explain dark energy? Could that wave motion be the interaction of identical particles? There should be no identical fermions in the entire universe. But when particles are reaching the minimum energy level they cannot transform anymore.

Pauli's Exclusion Principle means that there are no two identical fermions in the same quantum system. And the universe is one quantum system. We are part of that quantum system.

But there is one place where two fermions can turn identical. That place is the minimum energy level. And if some electrons reach the absolute minimum energy level of the system. They turn identical. That causes the effect where those electrons push each other away from the system.

Or otherwise thinking the superstrings can form a similar interaction as fermions or every other particle in the world. And there is a possibility that if there are superstrings at minimum energy level those superstrings are starting to repel each other.

What happens if all particles in the universe reach the same energy level? That thing destroys the entire universe. The reason for that is that when two particles are closing the same energy level they start to repel each other.

In cosmic inflation, space expands in comparison to the material. That means the particle's energy levels or quantum states are closing each other and particles are turning much more like each other. And that thing means that the particles are pushing themselves away from each other.

When two electrons or some other similar fermions like quarks reach the minimum energy level of the system they will become identical. And that means the wave motion of those particles pushes them away.

The same thing happens when the quantum entanglement's energy level turns stable. When the energy level of the quantum entanglement turns stable. That thing forms wave motion that pushes the particles away from each other.

The reason for that is that when the wave motions of the particles are impacting they form standing wave motion. And sooner or later the energy level of standing wave motion turns higher than outcoming wave motion. So the reflection from that virtual particle pushes those particles away from each other.

And the question is could the dark energy be the interaction of the particles that are in the minimum energy level? When two electrons are reaching the minimum energy level they turn identical. And then the wave motion that leaves from those particles would push them away.

The Pauli Exclusion Principle means that there are no similar fermions in the same quantum state. That means as an example electrons must have different energy levels. And there are not two identical fermions in the entire universe.

That thing is one of the base principles that are keeping quantum systems as one entirety. If there would be identical fermions or two similar fermions in the same quantum state. That means they have absolutely the same energy level they would form wave motion that has the same wavelength, height, and frequency. When that wave impacts another similar wave.

That causes the standing wave. That thing would push all particles away from each other. That means two similar particles would destroy the entire system. Quantum entanglement will be broken when two particles have the same energy level. Or actually, the quantum entanglement will be broken when the energy level of superpositioned and entangled particles are closing each other.

That means when the wave motion that is leaving from those particles is sliding to an identical form. They are starting to push particles away from each other.

The Pauli Exclusion Principle means that some fermions are at higher energy levels than others. And that thing leaves energy space to flow from the higher energy particles to lower energy particles.

When those particles' energy levels are closing each other that causes the quantum states of particles are closing each other. And that thing means that the particles are turning closer to each other that thing causes the wave motion that pushes particles away from each other.

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

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