The excitation functions of two very similar reaction channels, 58Fe+ 208pb→ 265Hs + 1n and 58Fe+ 209Bi → 266Mt +1n are studied in the framework of the dinuclear system conception. The fusion probabilities are f...The excitation functions of two very similar reaction channels, 58Fe+ 208pb→ 265Hs + 1n and 58Fe+ 209Bi → 266Mt +1n are studied in the framework of the dinuclear system conception. The fusion probabilities are found to be strongly subject to the structure of the driving potential. Usually the fusion probability is hindered by a barrier from the injection channel towards the compound nuclear configuration. The barrier towards the mass symmetrical direction, however, also plays an important role for the fusion probability, because the barrier hinders the quasi-fission, and therefore helps fusion.展开更多
基金The project supported by National Natural Science Foundation of China under Grant Nos. 10505016, 10235020, and 10235030, the Knowledge Innovation Project of the Chinese Academy of Sciences under Grant Nos. KJCX2-SW-N17 and KJCX-SYW-N2, the Natural Science Foundation of Guangdong Province under Grant No. 04300874, Major State Basic Research Development Program under Grant No. 2007CB815000 and the Financial Support from DFG of Germany
文摘The excitation functions of two very similar reaction channels, 58Fe+ 208pb→ 265Hs + 1n and 58Fe+ 209Bi → 266Mt +1n are studied in the framework of the dinuclear system conception. The fusion probabilities are found to be strongly subject to the structure of the driving potential. Usually the fusion probability is hindered by a barrier from the injection channel towards the compound nuclear configuration. The barrier towards the mass symmetrical direction, however, also plays an important role for the fusion probability, because the barrier hinders the quasi-fission, and therefore helps fusion.
