Neutrino Detection Could Help Paint an Entirely New Picture of the Universe
"The IceCube neutrino observatory buried at the South Pole is one cool telescope. It has detected extremely high-energy neutrinos, which are elementary particles that likely originate outside our solar system. The discovery of 28 record-breaking neutrinos was announced earlier – with two of the particles — nicknamed Bert and Ernie – drawing particular attention because of the their off-the-chart energy of over 1,000,000,000,000,000 electron volts or 1 peta-electron volt (PeV).
Now, a new analysis of more recent data discovered 26 additional events beyond 30 teraelectronvolts — which exceeds the energy expected for neutrinos produced in the Earth’s atmosphere, and one of those events was almost double the energy of Bert and Ernie. This one has been dubbed ‘Big Bird,’ and in combination, these events provide the first solid evidence for astrophysical neutrinos from distant cosmic accelerators, which might help us understand the origin of origin of cosmic rays. The detection has suggested a new age of astronomy is beginning, offering a new way to look at the Universe using high-energy neutrinos."
io9 says the Unprecedented neutrino discovery is a "Nobel Prize in the making" and puts Bert and Ernie in some context. "But not all neutrinos are the same. The ones discovered by the IceCube team are about a billion times more energetic than the ones coming out of our sun. A pair of them had energies above an entire petaelectron volt. That's more than 1,000 times the energy produced by protons smashed at CERN's Large Hadron Collider."
"So whatever created them must have been extremely powerful. Like, mindboggingly powerful — probably the remnants of supernova explosions. Indeed, as a recent study has shown, these cosmic explosions are more powerful than we could have ever imagined — to the point where they're defying known physics. Other candidates for neutrino production include black holes, pulsars, galactic nuclei — or even the cataclysmic merger of two black holes."
No comments:
Post a Comment