Author
Listed:
- Kaitlin J. Cook
(The Australian National University
Michigan State University)
- Dominic C. Rafferty
(The Australian National University)
- David J. Hinde
(The Australian National University)
- Edward C. Simpson
(The Australian National University)
- Mahananda Dasgupta
(The Australian National University)
- Lorenzo Corradi
(Laboratori Nazionali di Legnaro)
- Maurits Evers
(The Australian National University)
- Enrico Fioretto
(Laboratori Nazionali di Legnaro)
- Dongyun Jeung
(The Australian National University)
- Nikolai Lobanov
(The Australian National University)
- Duc Huy Luong
(The Australian National University)
- Tea Mijatović
(Ruđer Bošković Institute)
- Giovanna Montagnoli
(Universita di Padova)
- Alberto M. Stefanini
(Laboratori Nazionali di Legnaro)
- Suzana Szilner
(Ruđer Bošković Institute)
Abstract
The properties of superheavy elements probe extremes of physics and chemistry. They are synthesised at accelerator laboratories using nuclear fusion, where two atomic nuclei collide, stick together (capture), then with low probability evolve to a compact superheavy nucleus. The fundamental microscopic mechanisms controlling fusion are not fully understood, limiting predictive capability. Even capture, considered to be the simplest stage of fusion, is not matched by models. Here we show that collisions of 40Ca with 208Pb, experience an ‘explosion’ of mass and charge transfers between the nuclei before capture, with unexpectedly high probability and complexity. Ninety different partitions of the protons and neutrons between the projectile-like and target-like nuclei are observed. Since each is expected to have a different probability of fusion, the early stages of collisions may be crucial in superheavy element synthesis. Our interpretation challenges the current view of fusion, explains both the successes and failures of current capture models, and provides a framework for improved models.
Suggested Citation
Kaitlin J. Cook & Dominic C. Rafferty & David J. Hinde & Edward C. Simpson & Mahananda Dasgupta & Lorenzo Corradi & Maurits Evers & Enrico Fioretto & Dongyun Jeung & Nikolai Lobanov & Duc Huy Luong & , 2023.
"Colliding heavy nuclei take multiple identities on the path to fusion,"
Nature Communications, Nature, vol. 14(1), pages 1-7, December.
Handle:
RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-43817-8
DOI: 10.1038/s41467-023-43817-8
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