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Reduced quasifission competition in fusion reactions forming neutron-rich heavy elements

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Authors

Hammerton, K.
Kohley, Z.
Hinde, David
Dasgupta, M.
Wakhle, A.
Williams, E.
Oberacker, V. E.
Umar, A. S.
Carter, I. P.
Cook, K. J.

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American Physical Society

Abstract

Measurements of mass-angle distributions (MADs) for Cr + W reactions, providing a wide range in the neutron-to-proton ratio of the compound system, (N/Z)CN, have allowed for the dependence of quasifission on the (N/Z)CN to be determined in a model-independent way. Previous experimental and theoretical studies had produced conflicting conclusions. The experimental MADs reveal an increase in contact time and mass evolution of the quasifission fragments with increasing (N/Z)CN, which is indicative of an increase in the fusion probability. The experimental results are in agreement with microscopic time-dependent Hartree-Fock calculations of the quasifission process. The experimental and theoretical results favor the use of the most neutron-rich projectiles and targets for the production of heavy and superheavy nuclei.

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Source

Physical Review C - Nuclear Physics

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Open Access

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Restricted until

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