Abstract The theoretical study aims to synthesize superheavy elements with \ (Z 114 \) by irradiating an actinide target with a beam heavier than \ (^48Ca\). The results for the \ (^244Pu (^50Ti, xn) ^294-xLv\) and \ (^238U (^54Cr, xn) ^292-xLv\) reactions are in good agreement with the latest experimental data released by the Lawrence Berkeley National Laboratory (LBNL) and the Joint Institute for Nuclear Research (JINR). The research indicates that reactions using \ (^50Ti \) have higher cross sections for the production of superheavy elements compared to reactions using \ (^54Cr \). It suggests that with a \ (^50Ti \) beam, there is potential for synthesizing superheavy elements near the island of stability, as well as new elements beyond \ (Z = 118 \).
Li et al. (Fri,) studied this question.