Bulletin of the American Physical Society
6th Joint Meeting of the APS Division of Nuclear Physics and the Physical Society of Japan
Sunday–Friday, November 26–December 1 2023; Hawaii, the Big Island
Session 4WRA: Super Heavy Nuclei and New Elements I
2:00 PM–3:30 PM,
Monday, November 27, 2023
Hilton Waikoloa Village
Room: Kona 4
Chair: Hideyuki Sakai
Abstract: 4WRA.00003 : Experimental studies of fission mechanism*
3:00 PM–3:30 PM
Presenter:
Kentaro Hirose
Authors:
Kentaro Hirose
Katsuhisa Nishio
(Japan Atomic Energy Agency)
Hiroyuki Makii
(Japan Atomic Energy Agency)
Riccardo Orlandi
(Japan Atomic Energy Agency)
Kazuaki Tsukada
(Japan Atomic Energy Agency)
Masato Asai
(Japan Atomic Energy Agency)
Tetsuya K Sato
(Japan Atomic Energy Agency)
Yuta Ito
(Japan Atomic Energy Agency)
Fumi Suzaki
(Japan Atomic Energy Agency)
Yoshihiro Aritomo
(Kindai University)
Shoya Tanaka
(RIKEN)
Shigeru Kubono
(RIKEN)
Momo Mukai
(RIKEN)
Yutaka X Watanabe
(KEK)
Yoshikazu Hirayama
(KEK)
Hiroari Miyatake
(KEK)
Sunchan Jeong
(KEK)
Toshitaka Niwase
(KEK)
Igor Tsekhanovich
(University of Bordeaux)
Andrei N Andreyev
(University of York)
The MNT reaction is also expected one of viable reactions to produce super-heavy nuclei with more neutrons [1]. The angular momentum transferred in the MNT reaction is an important property since it influences a survival probability of a compound nucleus. In the present study, the angular momentum transferred in MNT reactions are experimentally deduced using fission. In MNT reactions, the axis of the angular-momentum transfer can be defined as perpendicular to the reaction plane. The fission-fragment angular distribution measured with respect to this axis, thus, strongly reflects the angular momentum. We performed measurements of the fission-fragment angular distribution in the 18O+237Np reaction, and deduced the angular momenta transferred to the produced compound nuclei of 236-240Np, 237-242Pu, 238-245Am, 243-245Cm.
In this workshop, details of the experiment and results will be presented as well as other experimental activities.
[1] V.I. Zagrebaev and W. Greiner, Phys. Rev. C87, 034608 (2013).
*This work was partly supported by JSPS KAKENHI Grant Number JP21K03607.
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