Two-proton radioactivity of exotic nuclei beyond proton drip-line

Abstract

To search for new candidates of the true and simultaneous two-proton (2p) radioactivity, the 2p decay energies (Q2p) are extracted by the Weizs\"acker-Skyrme-4 (WS4) model, the finite-range droplet model (FRDM), the Kourra-Tachibaba-Uno-Yamada (KTUY) model and the Hartree-Fock-Bogoliubov mean-field model with the BSk29 Skyrme interaction (HFB29). Then, the 2p radioactivity half-lives are calculated within the generalized liquid drop model (GLDM) by inputting the four types of Q2p values. By the energy and half-life constraints, it is found that the probable 2p decay candidates are the nuclei beyond the proton-drip line in the region of Z <50 or Z≤ 50 based on each nuclear mass model. In the region beyond Z=50, the 2p-decaying candidates are predicted only using the HFB29 mass model. Finally, the competition between the true 2p radioactivity and α-decay for the nuclei above the N=Z=50 shell closures is discussed. It is shown that 101Te, 111Ba and 114Ce prefer to 2p radioactivity and the dominant decay mode of 107Xe and 116Ce is α-decay.