Scientists are still amazed by one of the last great revelations of the cosmos.
A new research could change everything that we know about the physical laws that dominate our universe. He has been a study conducted by scientists from Nagoya University, in Japan, and published in the specialized Physical Review Letters, which has alerted the scientific community. An investigation that sought to know the true nature of dark matterwhich makes up about 95% of our reality and surrounds galaxies seen 12 billion light years away, has been the culprit for us to consider what was the cosmos like in its beginnings. If it’s already difficult to observe galaxiesnot so much human objects like the International Space Station, and other celestial bodies, imagine the complication to observe dark matterwhich does not emit any light.
The Big Bang seen through dark matter distortion
We know that the dark matter exists because of the way certain heavenly bodies behave, but not for an observation direct from it. We know your effects on galaxieswhich force their fundamental components to stay together, and now the study that we have told you about has found clues of the presence of dark matter in a space zone, close to an ancient galaxy. The detection has been possible thanks to cosmic debris of the Big Bang, instrumental precise and the curvature of the observed space.
The distortions observed appear to date back 12 billion yearsin what would be youngest dark matter never observed indirectly. The next step was to overcome lack of light in the galaxy, with which they were used microwave of the microwave background radiation, known internationally as CMB, which is the radiation that comes from the Big Bang. The teacher Masami Ouchibelonging to the University of Tokyo, declares in the CNet medium that:
Observing dark matter through distant galaxies? It was a crazy idea. No one realized we could do it.
East finding could forever change cosmologyalthough it is evident that it will be necessary to tread carefully so as not to draw hasty conclusions. Hironao Miyatakestudy author, it states that:
Our discovery is still uncertain. But if true, it would suggest that the Lambda-CDM model is imperfect as you travel back in time. This is exciting, because if the result holds up after reducing uncertainties, it would suggest that an improvement of the model would give us a better understanding of the nature of dark matter itself.
Related topics: Science
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