Nuclear orientation study of the decay of¹⁷²Lu

“…By the calculations made in [11,12,29] within the IBM all the states presented in the (dp)nn521"[+523+ 222:nn624"r -642T 93 Yo sensitive to the behaviour of single-particle neutron levels near the Fermi energy. By the calculations [41] with the IBM, B(E2)-values for the excitation of 2 3 state are by 12 times less than for the excitation of 2 + state and the energy of 2+ state equal to 2.268 MeV is about 0.6 MeV times as large as the experimental one. It follows from (dp) and (dt) reactions in [40] that the wave function of 2~-state has a large two-quasineutron component nn 512]" -5215 and a small two-quasiproton component from (p,c 0 reaction.…”

“…By the calculations of [41], within the IBM the energies of two-boson np =2, {n~=l, n~=l} and n~=2 states were not fitted and they turned out to be higher than the experimental ones of the states 0 +, 0~-, 2~-and 41-. The states calculated in the IBM have another structure in comparison with the 03, 0~-, 22 and 4 + states measured experimentally and they should not be compared with each other.…”

Confrontation between the quasiparticle-phonon nuclear model and the interacting boson model for deformed nuclei

“…By the calculations made in [11,12,29] within the IBM all the states presented in the (dp)nn521"[+523+ 222:nn624"r -642T 93 Yo sensitive to the behaviour of single-particle neutron levels near the Fermi energy. By the calculations [41] with the IBM, B(E2)-values for the excitation of 2 3 state are by 12 times less than for the excitation of 2 + state and the energy of 2+ state equal to 2.268 MeV is about 0.6 MeV times as large as the experimental one. It follows from (dp) and (dt) reactions in [40] that the wave function of 2~-state has a large two-quasineutron component nn 512]" -5215 and a small two-quasiproton component from (p,c 0 reaction.…”

“…By the calculations of [41], within the IBM the energies of two-boson np =2, {n~=l, n~=l} and n~=2 states were not fitted and they turned out to be higher than the experimental ones of the states 0 +, 0~-, 2~-and 41-. The states calculated in the IBM have another structure in comparison with the 03, 0~-, 22 and 4 + states measured experimentally and they should not be compared with each other.…”

Confrontation between the quasiparticle-phonon nuclear model and the interacting boson model for deformed nuclei

“…are taken, and for R 11ν < 0.5, opposite signs are taken (see Table 1). Comparison of measured experimental data [10,11] and calculated value of coefficients of multipole mixture δ for 172174 Y b are illustrated in Table 2. Table 2, shows that calculated values have good correspondence with experimental data and precisely reproduces a sign of δ.…”

Magnetic properties of rotational bands in¹⁶⁰Dyand^170–174Ybisotopes

Low temperature nuclear orientation of nuclei far from beta stability Spin — Facility at JINR