Présidents de session
Mixing Micro/Phenomelogy
- Chloë Hebborn (IJClab)
Reliable nuclear data with quantified uncertainties are essential for basic and applied science. When measurements are not possible, evaluators rely on systematics, theory predictions, and indirect observables. This is particularly relevant for applications involving reactions with short-lived nuclei, such as simulations undertaken to understand stellar evolution and the synthesis of the...
Optical potentials, or nucleon self-energies, can be determined using a nonlocal dispersive optical model (DOM). By enforcing the dispersion relation connecting the real and imaginary part of the self-energy, both experimental scattering data and nuclear structure data are used to constrain these self-energies. The ability to simultaneously calculate both bound and scattering states positions...
Advanced nuclear reaction theory is indispensable for producing reliable nuclear data used for both basic science and practical applications across various fields. Microscopic approaches incorporating nuclear structure information have predictive capabilities for neutron-induced reactions. We have developed a calculation method for direct and pre-equilibrium processes in neutron-induced...
