Nuclear Structure and Dynamics under extreme conditions
Lead Research Organisation:
University of Surrey
Department Name: Physics
Abstract
The Nuclear Energy Density Functionals (NEDF) are the appropriate, reliable, and successful tools to study the nuclear properties and excitations under extreme conditions. This research project will contribute to worldwide scientific efforts to better understand the structure of nuclei under extreme conditions, for instance, increasing nucleon number and temperature. Besides, the results of this work can make an important contribution to the astrophysical modelling of events occurring in stellar environments.
Organisations
Publications
Kaur A
(2024)
Finite-temperature effects in magnetic dipole transitions
in Physical Review C
Kaur A
(2024)
Electric dipole transitions in the relativistic quasiparticle random-phase approximation at finite temperature
in Physical Review C
Ravlic A
(2023)
Expanding the limits of nuclear stability at finite temperature.
in Nature communications
Ravlic A
(2024)
Global properties of nuclei at finite-temperature within the covariant energy density functional theory
in Physical Review C
Ravlic A
(2023)
Influence of the symmetry energy on the nuclear binding energies and the neutron drip line position
in Physical Review C