The Dark Energy Spectroscopic Instrument, DESI tests Einstein's theories in 11 billion light years in the Universe.
The dark matter hunters.
Maybe the standing gravity wave surrounds all gravity centers. That means dark matter can be the standing gravity wave. And if a standing gravity wave forms a structure whose wavelength is too short for electromagnetic waves. That they can fill that energy ditch. The energy falls into those low-energy areas from their sides, and then they will impact in the middle of that wave.
That causes an energy pike that sends wave movement around the universe. Sooner or later, that energy ditch or lower energy area fills. And that makes gravity waves weaker. The side-coming energy can deny gravitational interaction between particles.
And maybe that is the dark energy. The thing that makes gravity wave or lower energy area in the base energy field in the universe would be the particle. When the wave hits the particle, the particle stores a little part of that energy. And then, behind that practice, the energy shadow, low energy area, or energy ditch starts to travel through the universe.
Dark matter is the mysterious part of the universe. Some researchers think that dark matter is a dark energy source. But that is only speculation. The dark matter hunting is interesting because there are galaxies there is no dark matter. But in some galaxies, there is dark matter. That tells that maybe the WIMPs, hypothetical dark matter particles can form similar forms as visible material.
The interesting question is this: can dark matter follow the rule of centripetal force? Can fast-rotating material disks throw those WIMPs or the base energy field away from the structure?
The problem is how the WIMP can be unseen. The material that only confirmed reaction with its environment is gravitation is mysterious. There is also so much dark matter that the most of material in the universe is invisible to us. The Dark matter can be quasiparticles with an energy level lower than a three-kelvin cosmic background. In a quasiparticle model, the electron or some other particles can be destroyed. That means electrons will leave a hole in the universe's base energy field.
That makes it hard to see those particles. The dark matter and dark energy are a mystery. In some models, WIMPs can be the whirls or low-energy potholes in the Higgs field. In some models, the WIMP is a standing gravity wave. The idea is that all galaxies send gravitational waves that can be like traveling ditches in the base energy field in the universe. That means that those gravitational waves will impact near the galaxies with the other gravity waves.
And that means that the gravity waves can be locked as standing gravity waves around galaxies and other gravity centers. And maybe that thing can explain dark energy. Or, at least lots of it. When we think that gravity waves look like traveling ditches the low energy points in the universe's base energy field. If that model where gravity waves are like traveling ditches that can cause a situation where energy starts to travel in that thing.
The idea is that electromagnetic waves cannot fill that energy ditch, called gravity waves because the gravity wave's wavelength is so short. The gravity, or gravitational wave pulls energy into it. And if two energy waves impact each other in the middle of the energy ditch, a gravity wave can explain some part of dark energy.
That thing can cause situations where that side-coming energy fields will fill traveling gravity waves. That means the incoming energy that faces the gravity wave from the point, where that wave begins can travel into that gravity wave and fill it. If that energy starts to fill gravity waves from both ends that causes an energy wave or standing wave in the middle of the gravity wave. The idea is that a gravity wave is so short that. Other wave movement types like gamma, X-ray, or other electromagnetic waveforms cannot fill it from above.
https://scitechdaily.com/desi-tests-einsteins-theory-of-relativity-across-11-billion-years-of-cosmic-history/
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