"Physicists have developed an advanced atom interferometer that dramatically enhances sensitivity to weak forces, potentially aiding in the search for dark matter. Credit: SciTechDaily.com" (ScitechDaily, Scientists Amplify the Universe’s Faintest Signals 1,000x to Reveal Dark Matter)
Dark energy is like light. It's wave movement. And the reason why we call that energy "dark" is. We don't know its source. If the dark energy is too light that means it should also interact with gravity. That means gravity lenses should also focus on dark energy as they focus on visible light. The thing is that. The gravitational Doppler effect can also stretch dark energy. as it stretches other energy forms.
The gravitational redshift should make the dark energy visible if has a very short wavelength. It's possible. Dark energy is the wave movement that comes from other waves. So, it forms in reflection or in the leaking dimensions. Sometimes its source is introduced to the strings that keep the quarks in protons and neutrons. Or maybe it's radiation. That forms in gluons or in some gluon and quark interaction.
The thing that we know about the dark energy is nothing. The thing that makes the energy move is probably the universe's expansion. There is a lot of energy in the universe. And the question is what puts that energy moving? The moving energy is the thing that makes energy effective.
One of the reasons why we cannot know the dark energy source could be that the particles that send that wave movement are the intergalactic space or space between galaxy clusters. The nature of the speed of light can also explain dark energy.
The speed of light is lower in cosmic nebulas than in cosmic vacuums. When a particle comes out from a cosmic vacuum to a cosmic nebula it must release its energy when it slows speed. In neutrino detectors and the atmosphere, we see that thing as blue light flashes.
When a particle travels out from a galaxy cluster, it sends wave movement. That means it sends photons that travel faster than light travels in galaxy clusters. When that kind of particle hits material like nebulas it sends wave movement.
That energy can cause expansion making the energy level in the universe turn lower. Or the visible energy level in the universe turns lower. That causes energy to travel faster out from particles as in galaxy clusters. That means the universe's expansion releases energy stored in the material.
The universe is in the middle of the void. That means energy travels out from the universe. That is one of the reasons why there seems to be more energy in the universe than there should be. When energy travels out from the universe it turns colder. That means energy travels out from particles faster. That means material turns into wave movement faster all the time.
Some researchers say that maybe our galaxy Milky Way is in the middle of a cosmic bubble or cosmic void. That means the Milky Way is not as typical a galaxy as we thought. That means there can be more dark energy or the difference between speeds of light in the Milky Way and its environment is steeper than in normal galaxy. And that can cause errors in measurements.
However, the structure that distorts measurements can be far smaller than the Milky Way. There is a possibility that Earth is in the cosmic void. And that thing can cause errors in measurements.
And that makes energy travel out from particles faster. In the young universe, the energy level was higher and time dilation was higher. In the modern cold universe, the time dilation is lower in the space between galaxies and galactic clusters than in the universe.
That means time travels at two speeds in the modern universe. Stars are pumping energy to the objects around them. In the same way, gravity centers pull energy to the particles. But between galaxies and galaxy clusters energy level is very low. That means energy travels out from material faster than in galaxies.
There is a possibility that dark energy forms in dark matter. There is the possibility that dark matter exists in the low-energy areas of the universe. When a particle travels to the lower energy areas it sends energy waves. That means those particles send a little bit of themselves when they send those energy impulses.
This causes a situation in the particle's structure. That it turns thinner. That means the particle or its whisk-looking string structure is thinner and it makes the particle unable to send reflection that interacts with other particles. The thin string cannot cause interaction in large enough areas in the particles around it. That those particles can cause reflection that is strong enough to see.
https://www.astronomy.com/science/the-1000-light-year-wide-cosmic-bubble-around-earth/
https://news.stanford.edu/stories/2024/11/the-milky-way-represents-an-outlier-among-similar-galaxies
https://www.sciencealert.com/we-might-be-sitting-in-a-massive-supervoid-in-space-and-that-could-explain-the-hubble-tension
https://scitechdaily.com/scientists-amplify-the-universes-faintest-signals-1000x-to-reveal-dark-matter/
https://scitechdaily.com/could-a-mysterious-atomic-discovery-unlock-the-secrets-of-dark-matter/
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