Kvasil J, Nesterenko VO, Kleinig W, Reinhard PG (2014)
Publication Type: Journal article
Publication year: 2014
Book Volume: 89
Article Number: 054023
Journal Issue: 5
DOI: 10.1088/0031-8949/89/5/054023
The effect of nuclear deformation on the isoscalar toroidal and compression dipole modes in prolate 170Yb is studied in the framework of the random-phase-approximation method with a representative set of Skyrme forces (SV-bas, SLy6, SkMand 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 unexpected (opposite) sequence where the μ = 1 branch precedes the μ = 0 one. © 2014 The Royal Swedish Academy of Sciences.
APA:
Kvasil, J., Nesterenko, V.O., Kleinig, W., & Reinhard, P.-G. (2014). Deformation effects in toroidal and compression dipole excitations of 170Yb: Skyrme RPA analysis. Physica Scripta, 89(5). https://doi.org/10.1088/0031-8949/89/5/054023
MLA:
Kvasil, J., et al. "Deformation effects in toroidal and compression dipole excitations of 170Yb: Skyrme RPA analysis." Physica Scripta 89.5 (2014).
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