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Journal Articles

Shell structure of even-even nickel isotopes containing twenty to forty neutrons

Bespalova, O. V.*; Boboshin, I. N.*; Varlamov, V. V.*; Ermakova, T. A.*; Ishkhanov, B. S.*; Klimochkina, A. A.*; Komarov, S. Yu.*; Koura, Hiroyuki; Romanovsky, E. A.*; Spasskaya, T. I.*

Physics of Atomic Nuclei, 74(11), p.1521 - 1536, 2011/11

https://doi.org/10.1134/S1063778811110056
 Times Cited Count:6 Percentile:42.51(Physics, Nuclear)

Shell parameters of even-even nickel isotopes involving twenty to forty neutrons are analyzed, and the results of this analysis are presented. A detailed comparison of the results obtained by calculating, on the basis of the mean-field model with the Koura-Yamada potential and the dispersive optical potential, single-particle energies of proton and neutron subshells with experimental data on the isotopes $$^{56,58,60,62,64,68}$$Ni and with evaluated data on the neutron-deficient isotopes $$^{48,50,52,54}$$Ni is performed. The Koura-Yamada potential predicts correctly special features in dependence of single-particle energy and are useful in evaluating sub-shell energies on unstable nuclei.

Journal Articles

Energies of the single-particle proton 1$$f$$ and 2$$p$$ states in the $$^{58,60,62,64}$$Ni isotopes

Bespalova, O. V.*; Boboshin, I. N.*; Varlamov, V. V.*; Ermakova, T. A.*; Ishkhanov, B. S.*; Komarov, S. Yu.*; Koura, Hiroyuki; Romanovskii, E. A.*; Spasskaya, T. I.*

Bulletin of the Russian Academy of Sciences; Physics, 73(6), p.820 - 823, 2009/06

https://doi.org/10.3103/S1062873809060264

Single-particle energies corresponding to the maximum value of the spectroscopic factor were obtained for the proton states near the Fermi energy in the $$^{58,60,62,64}$$Ni nuclei by the joint evaluation of the data on the stripping and pickup reactions on the same nucleus. These results are compared with the center-of-mass energies of the single-particle state fragment distributions obtained by the same method and with the single-particle energies calculated with the Woods-Saxon-like potential and with the dispersive optical model potential. For 2$$p$$$$_{3/2}$$ states (the first unoccupied states), Results of the Woods-Saxon-like potential are in excellent agreement with the energies of maximum (practically the same), for 1$$f$$$$_{7/2}$$, 1$$f$$$$_{5/2}$$ and for 2$$p$$$$_{1/2}$$ states the agreement within 1 - 1.5 MeV was achieved. Sufficient difference between centers of mass and maximums was obtained for 1$$f$$$$_{5/2}$$ and 2$$p$$$$_{1/2}$$ states, which may be connected with the fragmentation effect.

Oral presentation

Single-particle energies of 1f and 2p proton states in $$^{58,60,62,64}$$Ni

Bespalova, O. V.*; Boboshin, I. N.*; Varlamov, V. V.*; Ermakova, T. A.*; Ishkhanov, B. S.*; Komarov, S. Yu.*; Koura, Hiroyuki; Romanovskii, E. A.*; Spasskaya, T. I.*

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