Lightning Bolts Are Churning Out Antimatter All Over Planet Earth

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Particles split in the hot belly of a lightning bolt. Radioactive particles decay in the afterglow. Gamma rays rain down to Earth. Teruaki Enoto, a physicist at Kyoto University in Japan, proved for the first time, in a paper published Nov. 23, that lightning bolts work as natural particle accelerators. Enoto and his co-authors' results confirm for the first time speculation dating back to 1925 about this phenomenon. Back then, scientists suggested that energized, radioactive particles might zip through the booms and flashes of a thunderstorm. Those particles emit energy at precise wavelengths, which Enoto and colleagues are the first to detect. Here's what that means: When lighting strikes, electrons shoot screamingly fast between clouds and Earth's surface (or between two clouds). But the particles don't travel through empty space. Along the way, they crash again and again into atmospheric gas molecules. All those collisions heat the gas into a state called plasma, which glows with blackbody radiation (a type of electromagnetic radiation given off by some opaque objects). Some of that glow, people can see, in the characteristic bright flash of lightning. But some of the emission takes place at frequencies, including X-rays and gamma-rays, far above what the human eye can detect. Enoto's results show that those beams of invisible energy — especially the gamma-rays — excite ambient nitrogen and oxygen in the atmosphere, knocking out neutrons from the molecules the gamma rays encounter. In other words, the process results in nuclear fission. Now, things get really exciting. Nitrogen nuclei with 14 neutrons are stable. But take one of those neutrons away, and you're left with nitrogen-13, an unstable, radioactive isotope. Similarly, oxygen-16 is stable, but -15 … not so much. Soon, all of those N-13 and O-15 molecules decay. Each unstable isotope fires off an additional neutrino and positron (the antimatter partner of the electron); both are elementary particles with exotic properties. The neutrinos stream away, nearly undetectable. But the positrons, or anti-electrons, go on to collide with their twins: ambient electrons in the atmosphere. And when matter and antimatter meet, they annihilate in a signature flash of energy.

Read More: Live Science

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