Observation of suppression of heavy-ion fusion by slow quasifission

L. T. Bezzina; E. C. Simpson; D. J. Hinde; M. Dasgupta

doi:10.1051/epjconf/202430601029

All issues

Volume 306 (2024)

EPJ Web Conf., 306 (2024) 01029

Abstract

Open Access

Issue		EPJ Web Conf. Volume 306, 2024 FUSION23 – International Conference on Heavy-Ion Collisions at Near-Barrier Energies


Article Number		01029
Number of page(s)		7
DOI		https://doi.org/10.1051/epjconf/202430601029
Published online		18 October 2024

EPJ Web of Conferences 306, 01029 (2024)
https://doi.org/10.1051/epjconf/202430601029

Observation of suppression of heavy-ion fusion by slow quasifission

L. T. Bezzina^*, E. C. Simpson, D. J. Hinde and M. Dasgupta

Department of Nuclear Physics and Accelerator Applications, The Australian National University

^* e-mail: lauren.bezzina@anu.edu.au

Published online: 18 October 2024

Abstract

The formation of superheavy elements (SHEs) by nuclear fusion can be conceptually divided into two steps: capture, and compound nucleus formation. Once captured, the two nuclei may reseparate before fusing to form a compact compound nucleus. This outcome is called quasifission.

Fusion-fission, in many cases, leads to reactions outcomes inseparable from quasifission. Evaporation residue (ER) measurements are therefore the most reliable, direct experimental signature of fusion. ER cross section measurements forming the same compound nucleus, ²²⁰Th, using ¹⁶O, ⁴⁰Ar, ⁴⁸Ca, ⁸²Se and ¹²⁴Sn-induced reactions [1–4] revealed [1] that fusion was severely suppressed for the more symmetric reactions relative to the ¹⁶O-induced reaction.

Here two new reactions forming ²²⁰Th using ²⁸Si, ³⁴S projectiles provide conclusive evidence that the ER cross section is exponentially suppressed as a function of Z_pZ_t. The fission characteristics show no mass-angle correlation, demonstrating that here ER cross sections are suppressed by slow quasifission.

This is an Open Access article distributed under the terms of the Creative Commons Attribution License 4.0, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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