Scientists have found a highest-ocean cosmic neutrino called a “ghost particle” on the bottom of the Mediterranean Sea using a special telescope called KM3NET. Neutrino has 30 times the energy of some hundreds of neutrino energy that has been found so far.
Neutrino is referred to as “ghostly” due to its great evaporation, or instability, which allows it to undergo any type of case. Even after passing through the most hostile environment, including stars, planets and even galaxies, the particles maintain their persistence.
Gibson, co-author of KM3NET cooperation, Gibson said, “This single neutrino has more energy in the form of energy issued by dividing one billion uranium atoms, when we consider the energy of our nuclear fragmentation reactors. A small, ether neutrino. “
Study co-writer Rosa Koniglione, KM3NET Deputy Spokesperson and Italian INFN National Institute for Nuclear Physics researcher reported that neutrino was a special universe messenger. They provide unique information about the mechanism behind the most energetic events and allow scientists to detect the farthest access to the universe, Koniglion said.
Scientists are uncertain about the origin and nature of the particle, but believe that Neutrino Milky Way came beyond the Galaxy. This raises the question of what Nutrino created and sent it to the universe, with possibilities, including a supermasive black hole such as extreme atmosphere or cosmic rays and photons.
Nicole Bell, a theoretical physicist at the University of Melbourne, said the original of the particle is unknown as high-energy neutrino such as KM3-230213A is unlikely to come from traditional sources of neutrino such as sun.
Professor Bell said, “This can be something new or something that we have not yet understood properly.”
In recent years, many detection units for cubic kilometers neutrino telescope, or KM3NET have been installed on the floor of the Mediterranean Sea to assist in the discovery of neutrino.
