Proton decay

For a long time, Protons were thought to be stable - that the laws of physics would not allow for a proton (which is baryonic matter) to spontaneously decay into positron and photon (non-baryonic matter) because of conservation of the baryon number. However, it has been recently determined that the predominance of matter over antimatter in the universe is the result of a very slight imbalance in the ratio that occurred very early in its formation. This imbalance was exceptionally small, on the order of 1 in every 10,000 particles, but after most of the matter and antimatter annihilated, what was left over was all the baryonic matter in our current universe. This means that in essence, rather than breaking the law of conservation of the baryon number, proton decay is actually the inevitable mechanism for bringing the baryon number back to equilibrium - correcting, if you will, the original imbalance that made all current matter in our universe possible.

Technical Details

Given a vast period of time (protons are theorized to have a half-life of 1036 years), a proton will decay into a positron and a pion that itself immediately decays to photon in the range of gamma radiation

p → e+π0

This process has yet to be observed experimentally, but is predicted by many Grand Unification Theories (see theory of everything)

Recent experiments at the Super-Kamiokande water Cerenkov radiation detector in Japan indicate a lower boundary for proton half-life of > 1035 years. The observation of neutrino oscillations also point towards proton decay being a real effect.

Further Reading




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