Conveners
Thursday: Morning
- Per-Erik Tegnér
Thursday: Afternoon I
- Andrea Idini
Thursday: Afternoon II
- Joakim Cederkäll
PANDA@FAIR: subatomic physics with antiprotons
Exploring the borders of the Island of Inversion: Unbound States in 29Ne
Measurements of proton decay properties provide valuable spectroscopic information on the structure of nuclei far from stability. In this presentation, I will report the results of our decay-spectroscopy study about the extremely neutron-deficient Lanthanum isotopes $^{116,117}$La. These nuclei were produced at the Accelerator Laboratory of the University of Jyväskylä by employing...
10 minutes presentation, 10 minutes discussion
Electroweak properties of nuclei from first principles
Chiral effective field theory ($\chi$EFT) promises a link between the underlying theory of the strong nuclear force --- quantum chromodynamics (QCD) --- and nuclear forces. The $\chi$EFT of low energy nuclear physics is formally parameterized by an infinite number of interaction diagrams, with accompanying undetermined interaction strengths called low-energy constants. To get a predictive...
Understanding the structure and dynamics of the proton constitute one of the most important challenges in hadron physics. As is well-known, quantities such as nucleon form factors enter calculations of cross sections for neutrino nucleus scattering. Additionally, the nuclear force is the remnant of the strong force with nucleons. It is thus important to understand the strong force between...
Decay Spectrsoscopy Along Flerovium Decay Chains
An Anti-Compton Shield for the LUNDIUM Decay Station
During this talk I will present some recent development for the computation of nucleon-nucleus optical potentials
using effective Hamiltonians constructed from a mapping of DFT's results. More precisely, I will focus on the challenge
related to the accurate calculations of overlaps in Hartree-Fock-Bogoliubov based theories and present a recently-published formula (B. G. Carlsson and J....
One powerful technique to go beyond the mean field calculations is the generator coordinate method (GCM). This method incorporate correlations between mean field configurations. However, using an energy density functional (EDF), which is density dependent, for the interaction will make the mixing of states not well defined. Also, the existing methods for the mixing can lead to...
