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Entrance Channel Dynamics of Hot and Cold Fusion Reactions Leading to Superheavy Elements

We investigate the entrance channel dynamics for the reactions $\mathrm{^{70}Zn}+\mathrm{^{208}Pb}$ and $\mathrm{^{48}Ca}+\mathrm{^{238}U}$ using the fully microscopic time-dependent Hartree-Fock (TDHF) theory coupled with a density constraint. We calculate excitation energies and capture cross-sections relevant for the study of superheavy formations. We discuss the deformation dependence of the ion-ion potential for the $\mathrm{^{48}Ca}+\mathrm{^{238}U}$ system and perform an alignment angle averaging for the calculation of the capture cross-section. The results show that this parameter-free approach can generate results in good agreement with experiment and other theories.

preprint2010arXivOpen access
A. S. UmarV. E. OberackerJ. A. MaruhnP. -G. Reinhard
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Open access4 authors1 topic
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A. S. UmarV. E. OberackerJ. A. MaruhnP. -G. Reinhard

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