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Abstract Relativistic perturbation theory with model potential of zero approximation is used for calculation of the energy levels 3p63d94 l , 3p53d104 l ( l =1–3) of Ni-like ions with… Click to show full abstract
Abstract Relativistic perturbation theory with model potential of zero approximation is used for calculation of the energy levels 3p63d94 l , 3p53d104 l ( l =1–3) of Ni-like ions with Z=36–56. The known ionization potentials of Ni-like ions used in calculations are corrected here. The dipole and quadrupole electric and magnetic probabilities of radiative transitions to the ground state are presented in graphs. It is shown that in the point of crossing of levels of the same parity and the same J a strong interaction of these levels occurs, which leads to a redistribution of the oscillator strengths of the radiative transitions from these levels. The crossing of energy levels of the opposite parities 3p53d104s [J=0], 3p53d104p [J=1] in Sn XXIII is shown.
Journal Title: Atomic Data and Nuclear Data Tables
Year Published: 2021
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