Synthesis of superheavy elements using 50,51V-induced fusion reactions

“…In other words, for the reaction with larger asymmetry parameters, the fusion probability is higher than that for the reaction with lower asymmetry parameters. The capture cross section for the reaction 44 Ca+ 252 Es is lower than that for the reaction 60 Fe+ 236 Np. The barrier height and Q value for the reaction 44 Ca+ 252 Es are 206.747 and 168.723 MeV, respectively; however, for the reaction 60 Fe+ 236 Np, the barrier height and Q value are 248.424 and 222.583 MeV, respectively.…”

“…6. For the reaction 44 Ca+ 252 Es, the fusion probability is higher than that for the reaction 60 Fe+ 236 Np. In other words, for the reaction with larger asymmetry parameters, the fusion probability is higher than that for the reaction with lower asymmetry parameters.…”

“…It should be noted that in Fig. 3, the reaction 44 Ca+ 252 Es exhibits the highest fusion probability.…”

“…In the aforementioned reactions, the difference between the mass asymmetry parameters is low. Consequently, to investigate the role of mass asymmetry, we compared the obtained results for the reactions 44 Ca+ 252 Es and 60 Fe+ 236 Np. The mass asymmetry parameters for these reactions are 0.702 and 0.594, respectively.…”

The entrance channel effect on the synthesis of a superheavy element ²⁹⁶119

“…In other words, for the reaction with larger asymmetry parameters, the fusion probability is higher than that for the reaction with lower asymmetry parameters. The capture cross section for the reaction 44 Ca+ 252 Es is lower than that for the reaction 60 Fe+ 236 Np. The barrier height and Q value for the reaction 44 Ca+ 252 Es are 206.747 and 168.723 MeV, respectively; however, for the reaction 60 Fe+ 236 Np, the barrier height and Q value are 248.424 and 222.583 MeV, respectively.…”

“…6. For the reaction 44 Ca+ 252 Es, the fusion probability is higher than that for the reaction 60 Fe+ 236 Np. In other words, for the reaction with larger asymmetry parameters, the fusion probability is higher than that for the reaction with lower asymmetry parameters.…”

“…It should be noted that in Fig. 3, the reaction 44 Ca+ 252 Es exhibits the highest fusion probability.…”

“…In the aforementioned reactions, the difference between the mass asymmetry parameters is low. Consequently, to investigate the role of mass asymmetry, we compared the obtained results for the reactions 44 Ca+ 252 Es and 60 Fe+ 236 Np. The mass asymmetry parameters for these reactions are 0.702 and 0.594, respectively.…”

The entrance channel effect on the synthesis of a superheavy element ²⁹⁶119

“…In this study, we aimed to find an appropriate DNS for the formation of 119 superheavy compound nucleus. This nucleus was chosen because the highest known atomic number to date belongs to the Oganesson nucleus, which has 118 protons [12][13][14]. For this purpose, we considered four reactions for the production of 119 superheavy element, including Sc + Cf, Ca + Es, K + Fm, and Ar + Md.…”

Study of the dinuclear system for ²⁹⁶119 superheavy compound nucleus in fusion reactions

Advantages of Slater-type spinor orbitals in the Dirac–Hartree–Fock method. Results for hydrogen-like atoms with super-critical nuclear charge