"I, Z(MSM0021620859)" . . "T154" . "6"^^ . . . "The toroidal, compression and vortical dipole strength functions in semi- magic Sn-124 (and partly in doubly magic (100),Sn-132) are analyzed within the random-phase-approximation method with the SkT6, SkI3, SLy6, SV-bas and SkM(+) Skyrme forces. The isoscalar (T = 0), isovector (T = 1) and electromagnetic ('elm') channels are considered. Both convection j(c) and magnetization j(m) nuclear currents are taken into account. The calculations basically confirm the previous results obtained for Pb-208 with the force SLy6. In particular, it is shown that the vortical and toroidal strengths are dominated by jc in the T = 0 channel and by jm in the T = 1 and 'elm' channels. The compression strength is always determined by j(c). It is also shown that the 'elm' strength (relevant for the (e,e') reaction) is very similar to the T = 1 one. The toroidal mode resides in the region of the pygmy resonance. So, perhaps, this region embraces both irrotational (pygmy) and vortical (toroidal) flows."@en . . "000319336900019" . "Kleinig, W." . "RIV/00216208:11320/13:10191515" . "111295" . "Toroidal, compression and vortical dipole strengths in Sn-124" . . . . "1" . "Physica Scripta" . . "Reinhard, P-G" . "Toroidal, compression and vortical dipole strengths in Sn-124"@en . "5"^^ . . "11320" . "densities; modes; parametrization; nuclei; giant-resonances; skyrme forces; phase-approximation description"@en . . "0031-8949" . . . "Toroidal, compression and vortical dipole strengths in Sn-124" . . "RIV/00216208:11320/13:10191515!RIV14-MSM-11320___" . . "Repko, Anton" . . . . "SE - \u0160v\u00E9dsk\u00E9 kr\u00E1lovstv\u00ED" . "Toroidal, compression and vortical dipole strengths in Sn-124"@en . "[AF4EA7220752]" . "10.1088/0031-8949/2013/T154/014019" . "Kvasil, Jan" . "http://dx.doi.org/10.1088/0031-8949/2013/T154/014019" . . . . "2"^^ . . "Lo Iudice, N." . "Nesterenko, V. O." . . "The toroidal, compression and vortical dipole strength functions in semi- magic Sn-124 (and partly in doubly magic (100),Sn-132) are analyzed within the random-phase-approximation method with the SkT6, SkI3, SLy6, SV-bas and SkM(+) Skyrme forces. The isoscalar (T = 0), isovector (T = 1) and electromagnetic ('elm') channels are considered. Both convection j(c) and magnetization j(m) nuclear currents are taken into account. The calculations basically confirm the previous results obtained for Pb-208 with the force SLy6. In particular, it is shown that the vortical and toroidal strengths are dominated by jc in the T = 0 channel and by jm in the T = 1 and 'elm' channels. The compression strength is always determined by j(c). It is also shown that the 'elm' strength (relevant for the (e,e') reaction) is very similar to the T = 1 one. The toroidal mode resides in the region of the pygmy resonance. So, perhaps, this region embraces both irrotational (pygmy) and vortical (toroidal) flows." .