Finite temperature effects on monopole and dipole excitations

The relativistic random phase approximation based on effective Lagrangian with density dependent meson-nucleon couplings has been extended to finite temperature and employed in studies of multipole excitations within the temperature range T = 1 - 2 MeV. The model calculations showed that isoscalar giant monopole and isovector giant dipole resonances are only slightly modified with temperature, but additional transition strength appears at low energies because of thermal unblocking of single-particle orbitals close to the Fermi level. The analysis of low-lying states shows that isoscalar monopole response in (132)Sn results from single particle transitions, while the isovector dipole strength for (60)Ni, located around 10 MeV, is composed of several single particle transitions, accumulating a small degree of collectivity.Astronomy & AstrophysicsPhysics, NuclearEICPCI-S(ISTP)