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Scientists confirm an incredibly efficient antimatter particle in Antarctica



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Scientists confirm an incredibly efficient antimatter particle in Antarctica


The antimatter particle discovered in the Neutrino IceCube has triggered a subatomic cascade and could trigger an avalanche of implications for the future of science and modern physics!

Scientists from the Neutrino IceCube observatory confirmed that an extremely powerful antimatter particle hit Antarctica in December 2016. As reported by Live Science, the collision appears to have triggered a subatomic cascade effect called Glashow resonance – a theoretical phenomenon that requires more energy to be triggered than even the most powerful particle accelerators can deliver. Scientists did not expect to see any tangible evidence of Glashow resonance, but now that they have it, it will help further validate the standard model of subatomic physics.

Slowly and calmly

According to a study published on Wednesday in the journal Nature, it took scientists over four years to confirm the Glashow MRI by scientists associated with the Neutrino IceCube Observatory in Antarctica.
But that’s nothing compared to how long scientists have waited to notice this strange phenomenon. Live Science notes that Stephen Glashow first came up with the idea of ​​the subatomic cascade as early as 1960, and that it was a purely theoretical issue all along.

The actual Glashow resonance cascade involves antineutrinos – or even ordinary neutrinos – colliding with an electron of such high energy that it produces a relatively large particle called the W boson.

To accomplish this, an extremely tiny antineutrino carries 6.3 petaelectron volts, or the energy of 6.3 quadrillion electrons accelerated by one volt. This is the same as calculated by Live Science, as 6,300 mosquitoes traveling at one mile per hour – or one mosquito traveling 8.2 times faster than sound.

It’s also 450 times more energy than expected to be produced by the Large Hadron Collider after the upgrade is complete, meaning scientists are waiting for this strange, rare event to happen on its own.

source: Futurism | Live Science