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The spirit of Siouni, like the subatomic estuary, was pulled from the incredible energy of the galaxy, the so-called. a blazer, which is four billion light years away. It's a galaxy with a huge black hole. This discovery could indicate the question of the origin of cosmic rays and establish a whole new way of seeing the universe.
Source: B92
Photo: Thinkstock
Find this estimate is the work of scientist Ajs Kjub Observatory who first detected and then found its source.
So, these are the points in which this could explain where cosmic rays come from. This answer would be pretty spectacular. The neutrino has almost no mass and travels directly through the universe. This makes it very easy to detect, but also very easy to follow.
"Neutrinos rarely react to matter," says Professor O. Brien, a member of the International Astronomy Team at the University of Leicester.
"To discover them in the cosmos is incredible, but when their source is identified, it's a triumph," he adds, adding, "This result will allow us to explore in a completely new way the most sophisticated and sophisticated energy sources in the space. "
The Ace Kjub observatory discovered neutrinos on September 22nd. This huge resort is located about a mile from the North Pole. A network of more than 5,000 super sensitive sensors captured the characteristic of the blue "erenkov" light that emitted when the neutrino came in contact with the ice.
Neutrinos go straight through the planets, the stars, and through all of this he finds himself on the road. As a straight line, the nails were able to eject its previous movement billions of light years to its source.
Naunics finally concludes that the origin of this estimate is the so-called blazar, a galaxy that has a huge black hole in itself. It lies 4 billion light-years from Earth and is to the left of the Orion summons.
The detected neutrino is probably a product of cosmic ray energy that is in contact with certain materials in the environment. Unlike other accidents, which are constantly monitored, the neutrino can not fall under the influence of the most powerful magnetic fields, the Pie Independent.
Frances Cordova, director of the National Foundation Foundation (NSF), who heads the Ajs Kjub Lab, says that we are in the era of sending multiple messages as part of the 39; astrophysics.
"Each messenger, from electromagnetic radiation to gravitational waves and now to neutrino, gives us a more complete understanding of the universe and takes a fresh look at the most powerful objects and events in the sky," he said. he convinced.
Thus, the neutrino became the third "messenger" within the framework of astrophysics
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