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The universe's expansion is a mystery.


The universe's expansion accelerates. Because a particle's distance grows and that decreases the power of gravity. Dark energy is the thing that dominates the universe. When the gravity effect's strength decreases, the power of dark energy increases. Relative to gravity.

The universe's expansion is a mystery. The thing, that makes this thing interesting is that if the universe is in the middle of nothing, the universe should not expand. It should collapse. When the material is in an absolute vacuum,  it just turns wave movement. And the direction of that wave movement is out from the material entirety. So if the universe is in nothing that means, the universe should collapse from its edge. The absolute vacuum cannot interact with that wave movement. And there is no resistance. Without resistance. Opposite-traveling waves are impossible. 

But if there is a standing wave at the edge of the universe, that effect can keep material in its form. The standing wave requires something, that pushes those waves back. In that case, the standing wave limits the material turning into the wave movement. That standing wave can also make reflections from inside the universe. When energy or wave movement impacts that theoretical standing wave they will reflect into the universe. 

In that case, the reflecting waves are acting like pressure waves in the vacuum bomb. They travel in the middle of the universe and then reflect from there. That thing forms the wave packages that travel through the universe. Those waves impact with another wave that comes from the black holes. Those waves can form virtual particles in their impact points. Those quantum whirls take energy from those waves and then reflect it. 

When energy hits to particle that particle stores it. And when its energy level rises high enough, it sends or reflects that wave movement in the wavelength that is the same size as the transmitting particle. That means particles amplify wavelength. Virtual particles also re-adjust wave movements' energy levels. 


It's possible. That dark energy has two wavelengths. The "hot" and "cold" dark energy. 


1) Short Wave dark energy. That source could be in bonds between quarks and gluons.


2) Long wave dark energy that wavelength is light years. 

 

Those quantum whirls are re-adjusting wave movement that impacts them. The problem with dark energy is this: there is energy or wave movement whose wavelength is unknown. The Dark energy can be wave movement with very long wavelengths. Waving galaxies are things that can explain the dark energy. In that case, the dark energy wavelength is so long that we just cannot measure it on Earth. In this model, the dark energy wavelength can be light years. 

On the other hand, the dark energy wavelength can be so short that we cannot see it. In that case: a dark energy source could be in the strings between quarks. When other energy types like gamma, X-ray, gravitation, etc. hit the atom it conducts that energy into its smallest parts. When energy travels in the strings between quarks and gluons. They start to oscillate. That oscillation can be dark energy. 

So, can there be two dark energy wavelengths? Can there be dark energy whose wavelength is very long? And dark energy with a very short wavelength. That is possible. It's also possible that dark energy forms when cosmic superstrings oscillate. And that thing makes them send wave movement that has lower energy than those superstrings. 

https://scitechdaily.com/resolving-the-hubble-tension-webbs-precise-measurements-illuminate-the-universes-expansion-mystery/

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

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

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



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