Compound-Nuclear Reactions and Related Topics (CNR*24)

Microscopic calculations with noniterative finite amplitude methods and the application to neutron radiative captures and inelastic scatterings

9 Jul 2024, 17:41

1m

M Building, Boardroom A (Vienna International Centre)

Poster Nuclear Reaction Mechanisms (direct, compound, preequilibrium) Poster Session

Speaker

Hirokazu Sasaki (Los Alamos National Laboratory)

Description

We derive the fully self-consistent quasiparticle random-phase
approximation (QRPA) equations with noniterative finite amplitude
methods and calculate the transition strengths of giant resonances.
Then, we apply the QRPA results to both neutron radiative capture
calculations based on the statistical Hauser-Feshbach theory and
inelastic scattering calculations based on distorted-wave Born
approximation (DWBA). We compare the calculated results with available
experimental data and demonstrate how our approach can reproduce giant
resonances and various nuclear reactions.

Presentation materials

poster_hirokazusasaki.pdf