Examination of promising reactions with 241Am and 244Cm targets for the synthesis of new superheavy elements within the dinuclear system model with a dynamical potential energy surface

Abstract

Two actinide isotopes, 241Am and 244Cm, produced and chemically purified by the HFIR/REDC complex at ORNL are candidates for target materials of heavy-ion fusion reaction experiments for the synthesis of new superheavy elements (SHEs) with Z>118. In the framework of the dinuclear system model with a dynamical potential energy surface (DNS-DyPES model), we systematically study the 48Ca-induced reactions that have been applied to synthesize SHEs with Z=112--118, as well as the hot-fusion reactions with 241Am and 244Cm as targets which are promising for synthesizing new SHEs with Z=119--122. Detailed results including the maximal evaporation residue cross section and the optimal incident energy for each reaction are presented and discussed.