Add to ORKGTwo-proton radioactivity is considered as a direct three-particle decay on example of the "1"9Mg nucleus which is still unobserved. The realistic three-body model calculations predict its half-life values up to 100 ps which is 1000 times longer than the life-time derived by the traditional diproton model. Specific observable, e.g. the p-p correlations from the "1"9Mg decay, differ drastically in predictions of these models as well. A possible radioactivity of "1"9Mg might be studied in a kinematically complete experiment detecting all fragments of "1"9Mg and the "1"7Ne+p+p coincidences. The experiment can be performed using a radioactive beam of "2"0Mg at intermediate energies. (or...
The stability and spontaneous decay of naturally occurring atomic nuclei have been much studied ever...
The two-proton radioactivity is a unique tool to study the nuclear structure beyond the proton drip-...
Nowadays quantum-mechanical three-cluster theory allows one to reliably calculate the processes of 2...
Nowadays quantum-mechanical three-cluster theory allows one to re-liably calculate the processes of ...
The current situation in the theory of three-body decay and experimental advances are briefly overvi...
International audienceTwo-proton radioactivity was discovered a few years ago. Since then two to thr...
A hybrid model is proposed which combines the nuclear structure part from configuration-interaction ...
In the first part of the present review paper, experimental results which lead to the discovery of t...
Nowadays quantum-mechanical theory allows one to reliably calculate the processes of 2p radioactivit...
The theoretical approach to the two-proton radioactivity and three-body decays developed in (L.V. G...
International audienceThe 2p radioactivity half-lives have been calculated within a tunneling proces...
The stability and spontaneous decay of naturally occurring atomic nuclei have been much studied ever...
The two-proton radioactivity is a unique tool to study the nuclear structure beyond the proton drip-...
Nowadays quantum-mechanical three-cluster theory allows one to reliably calculate the processes of 2...
Nowadays quantum-mechanical three-cluster theory allows one to re-liably calculate the processes of ...
The current situation in the theory of three-body decay and experimental advances are briefly overvi...
International audienceTwo-proton radioactivity was discovered a few years ago. Since then two to thr...
A hybrid model is proposed which combines the nuclear structure part from configuration-interaction ...
In the first part of the present review paper, experimental results which lead to the discovery of t...
Nowadays quantum-mechanical theory allows one to reliably calculate the processes of 2p radioactivit...
The theoretical approach to the two-proton radioactivity and three-body decays developed in (L.V. G...
International audienceThe 2p radioactivity half-lives have been calculated within a tunneling proces...
The stability and spontaneous decay of naturally occurring atomic nuclei have been much studied ever...
The two-proton radioactivity is a unique tool to study the nuclear structure beyond the proton drip-...
Nowadays quantum-mechanical three-cluster theory allows one to reliably calculate the processes of 2...