Competition between fusion and quasifission in the formation of super-heavy elements

David J. Hinde, M. Dasgupta, D. Y. Jeung, G. Mohanto, E. Prasad, C. Simenel, E. C. Simpson, A. Wakhle, E. Williams, I. P. Carter, K. J. Cooke, Sunil Kalkal, D. C. Rafferty, J. Walshe

    Research output: Contribution to journalConference articlepeer-review

    Abstract

    Quasifission is a non-equilibrium dynamical process resulting in rapid separation of the dinuclear system initially formed after capture of two colliding heavy nuclei. This can inhibit fusion by many orders of magnitude, thus suppressing the cross section for formation of superheavy elements. Measurements with projectiles from C to Ni, made at the Australian National University Heavy Ion Accelerator Facility, have mapped out quasifission characteristics and systematics using mass-angle distributions (MAD) - the fission mass-split as a function of centre-of-mass angle. These provide information on quasifission dynamics in the least model-dependent way. Quasifission time-scale information in the MAD has been compared with TDHF calculations of the collisions, with good agreement being found. Most significantly, the nuclear structure of the two colliding nuclei has a dramatic effect on quasifission probabilities and characteristics in gentle collisions at near-barrier energies. The effect of static deformation alignment, closed shells and N/Z matching can completely change reaction outcomes. The realization of this strong dependence makes modelling quasifission and superheavy element formation a challenging task, but should ultimately allow more reliable prediction of superheavy element formation cross sections.

    Original languageEnglish
    Article number356
    JournalProceedings of Science
    Volume2016-September
    Publication statusPublished - 2016
    Event26th International Nuclear Physics Conference, INPC 2016 - Adelaide, Australia
    Duration: 11 Sept 201616 Sept 2016

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