Theoretical calculations of transition probabilities for individual and multiplet lines between some excited levels of atomic potassium

Abstract: The transition probabilities for individual and multiplet lines between some excited levels of atomic potassium are calculated using weakest bound electron potential model theory (WBEPMT). The numerical nonrelativistic HartreeFock wave functions for the expectation values of radii in all excited states, unlike the Numerical Coulomb Approximation method traditionally used for WBEPMT and experimental ionization energies, have been employed to determine the parameters. The results obtained during this work agree … Show more

“…Previously, Celik et al used expectation values of radii determined from NRHF wave functions and obtained very satisfactory transition probability results for atomic lithium [10] nitrogen [31,32], oxygen [33], fluorine [34], sodium [35] and potassium [36]. The results obtained from this study clearly show that accurate expectation values of radii are necessary in the WBEPM theory framework.…”

Oscillator Strengths for Allowed Transitions in Li(II)

“…Previously, Celik et al used expectation values of radii determined from NRHF wave functions and obtained very satisfactory transition probability results for atomic lithium [10] nitrogen [31,32], oxygen [33], fluorine [34], sodium [35] and potassium [36]. The results obtained from this study clearly show that accurate expectation values of radii are necessary in the WBEPM theory framework.…”

Oscillator Strengths for Allowed Transitions in Li(II)

“…We presented already in previous papers in details how to obtain these parameters [21][22][23][29][30][31]. In Table 1, the electric dipole transition probabilities and the oscillator strengths among multiplet lines are listed (Table 1 is given in the supplementary material of this paper).…”

Electric dipole transition probabilities, oscillator strengths, and lifetimes for Co¹⁶⁺

Lifetimes of excited levels for atomic silicon