University of Oxford scientists may have solved one of the biggest questions in modern physics, with a new paper that combines dark matter and dark energy into a single phenomenon: a fluid that has a negative mass. "If you were to press a negative mass it would accelerate towards you." This amazing new theory could also be a prediction that Einstein made 1
Our current, widely recognized model of the universe, called LambdaCDM, does not tell us anything about how dark matter and dark energy are physical. We only know about them because of the effects of gravity on other observable matter.
This new model released today Astronomy and Astrophysics by dr. Jamie Farnes was published by the Oxford E-Research Center, Department of Engineering Science, offering a new explanation. Dr. Farnes says, "We now believe that both dark matter and dark energy can be merged into a fluid that has some kind of 'negative gravity' and repels all other materials around it, and although this matter is our own, this suggests suggest that our cosmos is symmetrical in both positive and negative qualities. "
The existence of negative matter had previously been ruled out, as it was thought that this material would become less dense with the expansion of the universe. This contradicts our observations that show that dark energy does not show up over time. However, Dr. Farnes & # 39; s research a "creation tensor" that can produce negative masses continuously. It shows that as more and more negative masses come into existence, this negative mass liquid does not dilute during the expansion of the cosmos. In fact, the liquid seems to be the same as the dark energy.
Dr. Farnes & # 39; theory also provides the first correct predictions about the behavior of halos of dark matter. Most galaxies spin so fast that they should break apart, suggesting that an invisible "halo" of dark matter must hold them together. The new research published today shows a computer simulation of the properties of the negative mass that predicts the formation of halos of dark matter, as observed by observations with modern radio telescopes.
Albert Einstein Provided the First Indication of the Dark Universe When he discovered in his equations one hundred years ago a parameter called the "cosmological constant," which we know to be synonymous with dark energy. Einstein called the cosmological constant his "biggest mistake," though modern astrophysical observations prove this is a real phenomenon. In notes from 1918, Einstein described his cosmological constant and wrote that "a modification of the theory is required, so that 'empty space' has the role of gravitation of negative masses, which are distributed over the entire interstellar space." It is therefore possible Einstein himself predicted a universe with negative masses ahead.
Dr. Farnes says, "Previous approaches to combining dark energy and dark matter have attempted to modify Einstein's general theory of relativity, which has proven to be extremely challenging." This new approach introduces two old ideas that are known to fit with Einstein's theory compatible – negative masses and fabric creation – combined and combined.
"The result seems pretty nice: dark energy and dark matter can be combined into a single substance. Both effects can be explained simply as positive mass material that is more negative on a sea Crowds surfs.
The proof of Dr. Farnes's theory is obtained through tests carried out with an innovative Square Kilometer Array (SKA) radio telescope – an international effort to build the world's largest telescope at which the University of Oxford
Dr Farnes adds, "There are still many theoretical problems and computational simulations to go through, and LambdaCDM has a lead of nearly 30 years, but I'm looking forward to seeing if this new one Advanced version of LambdaCDM can accurately match other observation records from us Cosmology. If it really is, this would mean that the missing 95% of the cosmos had an aesthetic solution: we forgot to insert a simple minus sign. "
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J.S. Farnes. A Unifying Theory of Dark Energy and Dark Matter: Negative Masses and Material Formation Within a Modified LambdaCDM Framework, Astronomy & Astrophysics (2018). DOI: 10.1051 / 0004-6361 / 201832898, https://arxiv.org/abs/1712.07962[19659005(Bizarre "dark liquid" with negative mass could dominate the universe – which my research suggests