The description of the of nuclei energy spectra of 0^{+} states has been done involving the degree of their collectivity as a systematics parameter. Within the framework of this approach the parameter of the collectivity is mainly determined by pairs of particles placed on single ''effective'' level and coupled to monopole bosons. Holshtein-Primakoff transformation of these monopole bosons leads to clear physical explanation of the structure of 0^{+} states in terms of ''ideal bosons''. The results may be helpful both for experimentalists and theorists in their investigations of low- lying states structure and transition probabilities
In the present work, the low-lying 0+ states of the 170Yb isotope have been studied in order to expl...
13 pages, 5 tables, 3 figures, accepted for publication in Physical Review CA systematic study of en...
The nuclear landscape provides possibly the richest set of data that can be collected for quantum sy...
Analysis of the collective structure of 0^{+} states in terms of phonon tations for great amount of ...
The puzzling nature of 0+ excitations, especially in transitional and deformed nuclei, has attracted...
Many efforts have been made in nuclear structure physics to interpret the nature of low-lying excite...
In a new application of the algebraic interacting vector boson model (IVBM), we exploit the reductio...
Nuclear structure of 156,158Dy isotopes have been studied in the frame work of the interacting boson...
Recent high resolution (p; t) experiments have established the existence of a large number of low-ly...
The nature of 0+ excitations, especially in transitional and deformed nuclei, has attracted new att...
The nature of 0+ excitations, especially in transitional and deformed nuclei, has attracted new atte...
Excited 0+ states in 160Gd have been examined with the (n,n′γ) reaction at incident neutron energies...
Spectroscopic calculations are carried out for the description of the shape/phase transition in Pt n...
Direct mass measurements of the low-spin 3/2(-) and high-spin 13/2(+) states in the neutron-deficien...
Structural evolution in neutron-rich Os and W isotopes is investigated in terms of the interacting b...
In the present work, the low-lying 0+ states of the 170Yb isotope have been studied in order to expl...
13 pages, 5 tables, 3 figures, accepted for publication in Physical Review CA systematic study of en...
The nuclear landscape provides possibly the richest set of data that can be collected for quantum sy...
Analysis of the collective structure of 0^{+} states in terms of phonon tations for great amount of ...
The puzzling nature of 0+ excitations, especially in transitional and deformed nuclei, has attracted...
Many efforts have been made in nuclear structure physics to interpret the nature of low-lying excite...
In a new application of the algebraic interacting vector boson model (IVBM), we exploit the reductio...
Nuclear structure of 156,158Dy isotopes have been studied in the frame work of the interacting boson...
Recent high resolution (p; t) experiments have established the existence of a large number of low-ly...
The nature of 0+ excitations, especially in transitional and deformed nuclei, has attracted new att...
The nature of 0+ excitations, especially in transitional and deformed nuclei, has attracted new atte...
Excited 0+ states in 160Gd have been examined with the (n,n′γ) reaction at incident neutron energies...
Spectroscopic calculations are carried out for the description of the shape/phase transition in Pt n...
Direct mass measurements of the low-spin 3/2(-) and high-spin 13/2(+) states in the neutron-deficien...
Structural evolution in neutron-rich Os and W isotopes is investigated in terms of the interacting b...
In the present work, the low-lying 0+ states of the 170Yb isotope have been studied in order to expl...
13 pages, 5 tables, 3 figures, accepted for publication in Physical Review CA systematic study of en...
The nuclear landscape provides possibly the richest set of data that can be collected for quantum sy...