Speaker
Mr
Julian Kahlbow
(Institut für Kernphysik, TU Darmstadt)
Description
The neutron-rich nucleus $^{12}$Be has been studied in inverse kinematics at the R$^3$B-LAND setup at GSI. In a kinematically complete measurement, proton-induced one-neutron knockout reactions at 400$~$MeV/nulceon are used to investigate single-particle properties.
The high neutron-to-proton asymmetry leads to the breakdown of the magic $N=8$ shell-closure in $^{12}$Be. The valence-neutron pair configuration of the $^{12}$Be ground-state is assumed to be a mixture of the (1$p_{1/2}$)$^2$ occupation and the (2$s_{1/2}$)$^2$ & (1$d_{5/2}$)$^2$ intruder configuration above a $^{10}$Be core.[1,2]
The bound and neutron-unbound states populated in the $^{11}$Be reaction fragment are disentangled by analysing the $\gamma$-ray spectrum and the relative-energy spectrum, respectively.
All three partial cross sections are determined from quasi-free scattering and coherently analysed in eikonal reaction theory by C. A. Bertulani [3].
It is shown that the (2$s_{1/2}$)$^2$ & (1$d_{5/2}$)$^2$ intruder configuration is the dominant ground-state admixture in $^{12}$Be.
This work is supported by HIC for FAIR, GSI-TU Darmstadt cooperation, and the BMBF project 05P15RDFN1.
[1] A. Navin *et al.*, Phys. Rev. Lett. **85**, 266 (2000).
[2] S. D. Pain *et al.*, Phys. Rev. Lett. **96**, 032502 (2006).
[3] T. Aumann, C. A. Bertulani, and J. Ryckebusch, Phys. Rev. C **88**, 064610 (2013).
Primary author
Mr
Julian Kahlbow
(Institut für Kernphysik, TU Darmstadt)
Co-authors
Dr
Christoph Caesar
(GSI Helmholtzzentrum für Schwerionenforschung, Darmstadt)
Dr
Heiko Scheit
(Institut für Kernphysik, TU Darmstadt)
Matthias Holl
(Saint Mary's University/TRIUMF)
Prof.
Thomas Aumann
(Institut für Kernphysik, TU Darmstadt)
