Deformation effects in toroidal and compression dipole excitations of $^{170}$Yb: Skyrme-RPA analysis
arXiv:1311.4366 · doi:10.1088/0031-8949/89/5/054023
Abstract
The effect of nuclear deformation on the isoscalar toroidal and compression dipole modes in prolate $^{170}$Yb is studied in the framework of the random-phase-approximation method with a representative set of Skyrme forces (SV-bas, SLy6, SkM$^*$ and SkI3). It is shown that the deformation crucially redistributes the strength of both modes. The compression mode has the same sequence of $μ$=0 and 1 branches as the isovector giant dipole resonance where for prolate nuclei the $μ=0$ mode is lower in energy ($μ$ being the projection of the axial momentum of the mode). Instead, the toroidal mode exhibits an anomalous (opposite) sequence where the $μ$=1 branch precedes the $μ$=0 one.
5 pages, 6 figures, submitted to Phys. Scripta