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Warped Milky Way can give many answers.

    Warped Milky Way can give many answers. 


There is a star cluster near Sagittarius A*, that should not exist. 


The reason why star cluster IRS13 is the thing that should not be is that those stars are too young. Stars near the galaxy's core are usually older, and the reason why star cluster IRS13 is younger than it should be could be the result of impacting gasses somewhere near Sagittarius A*. 

The problem is where that impacting gas comes from. The answer could be that the other Milky Way steals material from Sagittarius A*. In that place, the donut-shaped gravitational field just pulls energy and particles out from the Sagittarius A*. Those impacts can create stars. 

The Milky Way's warped shape could tell something about the nature of dark energy and dark matter. If we think that electromagnetic radiation's wavelength is long enough. We would see those waves virtually straight. If the wavelength of the radiation is lightyears. We might not see that thing as wave movement. We would see that thing as simultaneous transmission. 


"Researchers have discovered that the star cluster IRS13 near the supermassive black hole Sagittarius A* in our galaxy is much younger than anticipated. This challenges existing theories about star formation near black holes. The team suggests IRS13 had a turbulent formation, which may have led to the unexpected presence of young stars in its vicinity". (ScitechDaily.com/Stellar Surprise: Fountain of Youth in the Center of Our Galaxy “Shouldn’t Be Possible”)



"Harvard astronomers suggest the Milky Way’s warped shape is due to an irregular dark matter halo. This supports theories of a past galactic collision and offers insights into the nature of dark matter. Credit: Stefan Payne-Wardenaar; Magellanic Clouds: Robert Gendler/ESO" (ScitechDaily.com/Dark Matter and Galactic Collisions: Harvard Astronomers Explain the Milky Way’s Mysterious Warp)

It's possible. That dark matter is not the only type of particle. Dark matter may be a group of virtual and short- and long-term particles. Dark energy might have multiple wavelengths. 

When we think about the dark matter's form. Some parts of dark energy might come from dark matter. In some versions, part of the dark matter particles are warped wave movement that forms when quantum fields of other particles touch each other. All quantum particles are similar, but those warped waves that form between two particles. And they are short-living. When those warped superstrings are tuning straight again they send wave movement if they strike with another particle. And they send wave movement that we cannot observe. 

The long-living versions could be WIMPs (Weakly Interacting Massive particles). Those particles spin so fast that they drive particles and wave movement past them. 

The Milky Way's warped shape is the thing that can form because there is some kind of interaction in the Dark Matter halo around it. In some visions. The reason why the Milky Way warped is ancient cosmic impacts or collisions. And that thing can cause the warped shape of our galaxy. In some other theories, the burst of gravitational waves is the reason. Why the Milky Way is not as straight as it should. But could gravitational waves be so long that the size of that wave movement is the same as a galaxy? What is the limit of wavelengths?

When we think of the model that dark energy forms in material. There that mysterious wave movement falls in the particle's center and then reflects from the standing wave. In that process the wave movement's wavelength changes. When a black hole loads energy into itself, it must reach a higher energy level than an environment where it can send the energy burst that we call gravity waves. 

Dark energy may be on both sides of the electromagnetic spectrum. The long-wave dark energy might have a longer wavelength than radiowaves. And short-wave dark energy is outside the gamma area. 

In wild visions, the warping of the Milky Way shows how long gravitational radiation remains, or how long wave movement those "gravitational waves" can have. So in that vision, the dark energy can travel in wave movement, and that wavelength is the size of a galaxy. 

When we think about dark energy the wave movement that we call that name may be not only one wavelength. The dark energy may have different wavelengths like the visible spectrum. And that means dark energy, or dark wave movement is a continuum in the spectrum. But we cannot just see that thing. This thing makes dark energy and dark matter interesting. 


https://scitechdaily.com/dark-matter-and-galactic-collisions-harvard-astronomers-explain-the-milky-ways-mysterious-warp/


https://scitechdaily.com/stellar-surprise-fountain-of-youth-in-the-center-of-our-galaxy-shouldnt-be-possible/


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