First Observation: Nucleus Decays into Four Particles Following Beta Decay

First Observation: Nucleus Decays into Four Particles Following Beta Decay

Not all of the material around us is stable. Some materials may undergo radioactive decay ⁤to form more stable isotopes. Scientists have now observed a new decay mode for the first time. In this decay, a lighter form of oxygen, oxygen-13 ‌(with eight protons and five neutrons), decays by breaking ⁣into three helium nuclei (an atom without⁣ the surrounding electrons), a proton, and a positron (the antimatter version of ⁤an electron).

Scientists observed this decay‍ by ‌watching a single⁣ nucleus break apart and measuring the breakup products. The study is published in⁤ the journal Physical Review Letters.

Scientists have previously observed interesting modes of radioactive⁣ decay following the process called beta-plus ⁢decay. This is where a proton ‌turns into a neutron and​ emits⁤ some of the produced energy by⁢ emitting⁢ a positron and an antineutrino.​ After this initial beta-decay, the resulting⁣ nucleus can have enough energy to boil ⁣off extra particles and make itself more stable.

This new⁢ decay mode is‌ the ⁣first observation of three helium-nuclei (alpha particles) and a proton being emitted following beta-decay. The ⁣findings can inform scientists about decay processes and the properties of the nucleus before the decay.

In ⁢this ‌experiment, researchers used‍ a particle accelerator known as a cyclotron at the ⁢Cyclotron Institute ⁤at Texas A&M University to produce a beam of‌ radioactive nuclei at high energies ⁢(approximately 10% the speed ⁢of light). They sent ‌this beam of radioactive material, oxygen-13, into a piece⁣ of ⁢equipment known as the Texas Active Target Time Projection Chamber (TexAT TPC).

2023-09-05 03:24:02
Article from​ phys.org

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