====== Nuclear Science Seminar Speaker Schedule Sign Up ======
[[public:Current Schedule]]
**Speaker = [[https://www-lmce.cea.fr/en/team/nuclear_physics/morfouace.html|Dr. Pierre Morfouace]]** of [[https://www-lmce.cea.fr/en/about.html|Laboratoire Matière en Conditions Extrêmes (LMCE)]]
Host = Aldric Revel [[revel@frib.msu.edu]]
When = 2025-03-19 Wednesday 15:30
Where = FRIB 1300
Please feel free to sign up below, but note that some slots may need to be re-assigned to accommodate those with a specific need to meet the speaker. If this happens, the Admin or Speaker Host will reach out to you via email.
^ Start Time ^ End Time ^ Name ^ Building ^ Room ^
| 09:00 | 09:30 | Aldric Revel | FRIB | 1014 |
| 09:30 | 10:00 | Remco Zegers | FRIB | 3131 |
| 10:00 | 10:30 | Kyle Godbey | FRIB | 2125 |
| 10:30 | 11:00 | Giordano Cerizza | FRIB | 1103 |
| 11:00 | 11:30 | Kyle Brown | FRIB | 1020 |
| 11:30 | 12:00 | Aldric/Kyle | FRIB | |
| 12:00 | 13:00 | Lunch with Graduate Students | FRIB | 2311 |
| 13:00 | 13:30 | Juan Zamora |FRIB | 6307 |
| 13:30 | 14:00 | Betty Tsang | FRIB | |
| 14:00 | 14:30 | Betty Tsang | FRIB | |
| 14:30 | 15:00 | Oscar Naviliat | FRIB | 2020 |
| 15:00 | 15:30 | Speaker Prep time | FRIB | 1300 |
| 15:30 | 16:30 | Seminar | FRIB | 1300 |
===== Context =====
Title = [[https://mediaspace.msu.edu/media/Nuclear+Science+Seminar+-+Pierre+Morfouace/1_eazmpe99|Mapping the new asymmetric fission island with the R3B-SOFIA setup]]
Abstract
The low energy fission in the actinide region is known to be mainly asymmetric, driven by structure
effects of the nascent fragments [1]. Moreover, we know that there is a transition from asymmetric to symmetric splitting for Thorium isotopes. It was assumed that this latter split would be the main fission mode for lighter nuclei. However, unexpected asymmetric splits have been observed again in neutron- deficient exotic nuclei [2]. This observation triggered a lot of theoretical and experimental work, and further studies in this region confirmed the unexpected asymmetric fission mode [3, 4], which seems to characterize the fission of neutron-deficient nuclei in the sub-lead region.
To explore this newly identified island of asymmetric fission, a dedicated experiment was conducted at GSI, Darmstadt, Germany, using inverse kinematics at relativistic energies with the state-of-the-art R3B/SOFIA setup [5]. We present measurements of fission fragment charge distribution from 100 exotic fissioning systems, establishing a connection between the neutron-deficient sub-lead region and the well- known actinide region. These new data provide a comprehensive mapping of the asymmetric fission island, offering clear experimental evidence of the important role played by the deformed Z = 36 proton shell in the fission of sub-lead nuclei [6].
Following a detailed description of the experimental apparatus, we will discuss the fission-fragment charge yields, highlighting the significant role of Z = 36 in the light fragment in the splitting process within this region. Additionally, we will compare our findings with both microscopic and phenomenological models.
[1] G. Scamps and C. Simenel, Nature 564, 382-385 (2018).
[2] A. N. Andreyev et al., Phys. Rev. Lett. 105, 252502 (2010).
[3] M. Warda et al., Phys. Rev. C 86, 024601 (2012).
[4] K. Nishio et al., Phys. Lett. B 748, 89-94 (2015).
[5] A. Chatillon et al., Phys. Rev. Lett. 124, 202502 (2020).
[6] P. Morfouace et al., Accepted in Nature (2025).
Relevant background with commentary from Speaker:
* the presentation is based on fission studies conducted at [[https://www.gsi.de/work/forschung/nustarenna/nustarenna_divisions/kernreaktionen/activities/r3b|GSI using the R3B/SOFIA experimental setup]]. Several studies have been published based on this setup from previous experiments. two relevant papers are below.
* One by Pellereau et al., which details the experimental setup and analysis: [[https://doi.org/10.1103/PhysRevC.95.054603|Phys. Rev. C 95, 054603 – Published 3 May, 2017]]
* A more recent paper by J.-F. Martin et al., presenting a range of results: [[https://doi.org/10.1103/PhysRevC.104.044602|Phys. Rev. C 104, 044602 – Published 4 October, 2021]]