The heaviest proton emitter: A new type of atomic nucleus discovered in the Accelerator Laboratory of the Ģ��ֱ��

For the first time in more than thirty years, the heaviest nucleus decaying via proton emission has been measured. The previous similar breakthrough was achieved in 1996.

Tekoälyn luoma havainnollistus protoniemissiosta.

An AI-generated illustration of a proton emission. A proton is ejected from an astatine nucleus.

Published

4.6.2025

The radioactive decay of atomic nuclei has been one of the keystones of nuclear physics since the beginning of nuclear research. Now the heaviest nucleus decaying via proton emission has been measured in the Accelerator Laboratory of the Ģ��ֱ��, Finland.

“Proton emission is a rare form of radioactive decay, in which the nucleus emits a proton to take a step towards stability,” says Doctoral Researcher Henna Kokkonen from the Ģ��ֱ��.

Studying exotic nuclei is difficult, but not impossible

The new nucleus is so far the lightest known isotope of astatine, ¹⁸⁸At, consisting of 85 protons and 103 neutrons. Exotic nuclei of this kind are extremely challenging to study due to their short lifetimes and low production cross sections, so precise techniques are needed.

“The nucleus was produced in a fusion-evaporation reaction by irradiating natural silver target with 84Sr ion beam,” says Academy Research Fellow Kalle Auranen from the Ģ��ֱ��. “The new isotope was identified using the detector setup of the RITU recoil separator.”

Study reveals new findings on heavy nuclei

In addition to the experimental results, the study expanded a theoretical model to interpret the measured data. Through the model, the nucleus can be interpreted as strongly prolate, i.e. “watermelon shaped”.

“The properties of the nucleus suggests a trend change in the binding energy of the valence proton,” says Kokkonen. “This is possibly explained by an interaction unprecedented in heavy nuclei.”

Kiihdytinlaboratorio — The study is part of Henna Kokkonen’s doctoral thesis.

The study is a follow-up to the master’s thesis

The study is part of Kokkonen’s doctoral thesis and a direct scientific follow-up to her master’s thesis, in which she discovered a new type of atomic nucleus, the 190-astatatine. The thesis article was published in the Physical Review C journal in 2023.

“Isotope discoveries are rare worldwide, and this is the second time I have had the opportunity to be part of making history,” Kokkonen rejoices. “Every experiment is challenging, and it feels great to do research that improves understanding of the limits of matter and the structure of atomic nuclei.”

The research article was written as part of an international research collaboration involving experts in theoretical nuclear physics. The study was published in the renowned Nature Communications on 29 May 2025.

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