Constraining Isovector Nuclear Interactions with Giant Dipole Resonance and Neutron Skin in <sup>208</sup>Pb from a Bayesian Approach
Jun Xu
Abstract
The remaining uncertainties in relation to isovector nuclear interactions call for reliable experimental measurements of isovector probes in finite nuclei. Based on the Bayesian analysis, although neutron-skin thickness data or isovector giant dipole resonance data in 208 Pb can constrain only one isovector interaction parameter, correlations among other parameters can also be built. Using combined data for both the neutron-skin thickness and the isovector giant dipole resonance helps to significantly constrain all isovector interaction parameters; as such, it serves as a useful methodology for future research.
Topics & Concepts
IsovectorPhysicsDipoleResonance (particle physics)NeutronNuclear physicsBayesian probabilityAtomic physicsStatisticsNucleonQuantum mechanicsMathematicsNuclear physics research studiesNuclear reactor physics and engineeringQuantum Chromodynamics and Particle Interactions