The formation and decay of superheavy nuclei produced in $^{48}Ca$-induced reactions

Details The formation and decay of superheavy nuclei produced in $^{48}Ca$-induced reactions The formation and decay of superheavy nuclei produced in $^{48}Ca$-induced reactions

2011-11-08

arxiv.org/abs/1111.1967v1

J. Phys. G: Nucl. Part. Phys. 29 625, 2003

Physics

Nuclear Physics

Nuclear Theory

Scientific paper

10.1088/0954-3899/29/4/303

The formation of superheavy nuclei in $^{48}Ca+^{232}Th$, $^{238}U$, $^{242,244}Pu$ and $^{248}Cm$ reactions and their subsequent decay are studied within the quantum mechanical fragmentation theory (QMFT) and the QMFT based preformed cluster-decay model (PCM) of Gupta and collaborators. According to QMFT, all these $^{48}Ca$-induced reactions are cold fusion reactions with relative excitation energies larger than for the $Pb$-induced cold fusion reactions and smaller than for the lighter beam i.e. $Mg$, $Si$ or $S$-induced hot fusion reactions. The same reactions were first suggested by Gupta et al. in 1977 on the basis of QMFT, and this study re-establishes the same result. In fact, for such heavy isotopes of Z=110 to 116, $^{50}Ca$ is shown to be a better beam for cold fusion, but $^{50}Ca$ is a radioactive nucleus. The $\alpha$-decay half-lives of these nuclei after 3n and/ or 4n evaporations, i.e. of the evaporation residues of these compound systems, calculated on PCM compare reasonably well with experiments published by Dubna group and another recent calculation. As expected for such rare decays, PCM calculations show that the $\alpha$-preformation factors are small, $\sim 10^{-8}$ to $10^{-10}$. The possible competition of $\alpha$-decays with heavy cluster emissions from these superheavy nuclei is also probed from the point of view of searching for new nuclear structure information and possible future experiments with such exotic nuclei. The decay half-lives for some clusters are in fact shown to be lower than the limits of experiments for nuclei with enough available atoms.

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