Researchers observe a new kind of disbandment in the atomic nuclei rich in protons

Beta disbandment is one of the most usual kinds of radioactive disbandment and it allows the nucleus to transform a neutron into a proton or a proton into a neutron when there is too much abundance of one of them.

This 56Zn nucleus is very far from the so-called 'valley of stability', where the nuclei which are stable and exist in nature is placed.

One of the basic questions for nuclear physics is the understanding of the atomic nuclei's structure, how protons and neutrons keep themselves united allowing the formation of the nuclei. This, which is well-known in stable nuclei that result in nature's elements, but it is not so widely known in exotic nuclei, elements created in labs which are far from stability, disbanding almost immediately.

In nuclei's beta disbandment of proton-rich nuclei, the nucleus usually loses energy emitting protons, because the strong interaction dominates over the electromagnetic one (emission of gamma rays). The final nucleus can stay in an excited state and emit a gamma ray at the same time. The process is, hence: beta-proton-gamma. However, the researchers from the IFIC have now observed the inverted process, measuring within the beta disbandment of the 56Zn the sequence beta-gamma-proton, where the gamma ray is emitted first and then the proton. This unusual way of disbandment has only been recently observed in a much more light nucleus, that of Argon 32 (32Ar).

According to the IFIC researchers "this strange form of disbandment is very interesting because it helps us understand the nucleus' structure." But, in addition, this measure has a huge impact because it affects the traditional form of measuring disbandment processes in exotic nuclei rich in protons. According to Sonja Orrigo, this measure will be fundamental for future experiments done in heavier exotic nuclei, as the ones that will be carried out the Japanese Lab of Nuclear Physics REIKEN, also lead by the research group of the IFIC.