In February 2023, a cosmic particle detector housed deep within the Mediterranean Sea recorded the arrival of a neutrino with roughly 20 to 30 occasions extra power than some other neutrino documented beforehand. Labelled KM3-230213A, the particle had a calculated power of 220 petaelectronvolts (PeV), far higher than the ten PeV of the beforehand most energetic neutrino. The discovering generated a variety of pleasure amongst physicists, however raised additionally many questions.
Neutrinos are the most plentiful particles within the universe with mass. They’re a sort of basic particle, which implies they don’t break down into smaller constituents, and are due to this fact very small and lightweight. In actual fact, they’re the lightest of all subatomic particles which have mass. Neutrinos additionally don’t have a cost (in contrast to, say, electrons, one other sort of basic particle, that are destructive). Consequently, solely very not often do neutrinos work together with with different matter; usually they’ll go straight by means of it with out altering it. In actual fact, trillions of neutrinos travelling by means of area may have handed by means of your physique because you began studying this text. Because of this neutrinos typically referred to as “ghost particles.”
For particle physicists, the detection of this anomalously energetic neutrino may solely be defined in two methods: Both KM3-230213A was proof of a cosmic course of, probably one by no means witnessed earlier than, with the potential to alter our understanding of neutrinos; or it was a disappointing measurement error. Researchers rapidly set to work to seek out out which rationalization was true.
Now there appears to be a solution. A complete research revealed within the journal Bodily Overview X in contrast the info of KM3-230213A with databases of knowledge on different ghost particles which were detected. Having analyzed the accessible information, scientists consider that this exceptional, ultra-energetic neutrino was not a statistical phantasm.
However The place Did It Come From?
Simply as a rock can not describe the character of a mountain, a 220 PeV neutrino alone isn’t helpful in explaining the phenomenon that gave rise to it. Because the paper acknowledges, with the knowledge accessible, it’s not potential to “draw agency conclusions on whether or not the commentary hints at a brand new ultra-high-energy element within the spectrum.”
But when there have been different recordings of equally energetic neutrinos, this could current a considerable advance by hinting that different beforehand unseen phenomena are on the market. “It may imply we’re seeing cosmogenic neutrinos for the primary time, produced when cosmic rays interacted with the cosmic microwave background, or it may level to a brand new type of astrophysical supply,” the research says.
The power of the 2023 neutrino additionally suggests it may have been emitted by one of many highly effective cosmic accelerators that we’re conscious of within the universe: a gamma-ray burst or supernova, or maybe a relativistic jet—a beam of plasma emitted from the neighborhood of a black gap. In distinction, lots of the neutrinos detected on Earth are atmospheric neutrinos, produced by the affect of cosmic rays hitting atoms in Earth’s environment, and are far much less energetic. They’re the identical particles, however their probably origins affect their power.
Completely different branches of science use and research neutrinos for various causes. As a result of neutrinos journey by means of the universe with out being deflected or absorbed, they will present worthwhile details about very distant cosmic occasions. Some scientists consider them as “reporters from the universe” who, on occasion, journey to Earth with information that might in any other case be misplaced.
This story initially appeared on WIRED en Español and has been translated from Spanish.