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Alpha Decay Half-Lives of New Superheavy Elements through Quasimolecular Shapes |
ZHANG Hong-Fei1,3;LI JUN-Qing1,2;ZUO Wei1,2;CHEN Bao-Qiu2,4;MA Zhong-Yu2,4;Soojae Im1;Royer Guy5 |
1Institute of Modern Physics, Chinese Academy of Sciences, Lanzhou 730000
2Research Center of Nuclear Theory of Laboratory of Heavy Ion Accelerator of Lanzhou, Lanzhou 730000
3Graduate School of Chinese Academy of Sciences, Beijing 100039
4China Institute of Atomic Energy, Beijing 102413
5Laboratoire Subatech, UMR: IN2P3/CNRS-Université-Ecole des Mines, 4 rue A. Kastler, 44307 Nantes Cedex 03, France |
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Cite this article: |
ZHANG Hong-Fei, LI JUN-Qing, ZUO Wei et al 2006 Chin. Phys. Lett. 23 1734-1737 |
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Abstract The lifetimes of α decays of the recently produced isotopes of the elements 112, 114, 116 and the element 294118 and of some decay products have been calculated theoretically within the Wentzel--Kramers--Brillouin approximation. The α decay barriers have been determined in the quasimolecular shape path within a generalized liquid drop model including the proximity effects between nuclei in a neck, the mass and charge asymmetry and the precise nuclear radius. These calculations provide reasonable estimates for the observed α decay lifetimes. The calculated results have been compared with the results of the density-dependent M3Y effective interaction and the experimental data. It is indicated that the theoretical foundation of the generalized liquid drop model is as good as that of the microscopic DDM3Y model, at least in the sense of predicting the T1/2 values as long as one uses a correct α decay energy. The half lives of these new nuclei are well tested from the consistence of the macroscopic, the microscopic and the experimental data.
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Keywords:
27.90.+b
23.60.+e
21.10.Tg
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Published: 01 July 2006
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