Radiative transition properties of singly charged magnesium, calcium, strontium and barium ions

“…In our previous paper [61], we had presented a few E2 matrix elements by employing the SD method approximation.…”

“…Using our previously reported E1 matrix elements in Ref. [61] and the experimental energies taken from the NIST database, we evaluate the static dipole polarizabilities of the ground and excited states of Mg + , Ca + , Sr + and Ba + ions. Then, we compare these values with the previously available experimental and theoretical results in Tables K, L, M and N. The scalar polarizabilities of the considered ground and excited states along with the tensor polarizabilities for the states with J > 1/2 are presented separately.…”

“…In this work, we intend to present data tables for the accurate values of quadrupole matrix elements for a large number of transitions of the above ions, E2 radiative properties, tune-out wavelengths and magic wavelengths of the Mg + , Ca + , Sr + and Ba + ions. We have estimated the quadrupole matrix elements and other related radiative properties of the transitions involving the nS of Ca + (n=4); Sr + (n=5) and Ba + (n=6) are presented using the dipole matrix elements given in our previous work [61]. Using these dipole dynamic polarizabilities, the magic wavelengths are obtained by locating the crossings between the dynamic polarizabilities of the nS 1/2 , nP 1/2 , nP 3/2 , nD 3/2 and nD 5/2 states of Mg + (n=3); nS 1/2 , nP 1/2 , nP 3/2 , (n − 1)D 3/2 and (n − 1)D 5/2 states of Ca + (n=4), Sr + (n=5) and Ba + (n=6) plotted against the wavelengths in the range 300-1300 nm.…”

Tune-out and magic wavelengths, and electric quadrupole transition properties of the singly charged alkaline-earth metal ions

“…In our previous paper [61], we had presented a few E2 matrix elements by employing the SD method approximation.…”

“…Using our previously reported E1 matrix elements in Ref. [61] and the experimental energies taken from the NIST database, we evaluate the static dipole polarizabilities of the ground and excited states of Mg + , Ca + , Sr + and Ba + ions. Then, we compare these values with the previously available experimental and theoretical results in Tables K, L, M and N. The scalar polarizabilities of the considered ground and excited states along with the tensor polarizabilities for the states with J > 1/2 are presented separately.…”

“…In this work, we intend to present data tables for the accurate values of quadrupole matrix elements for a large number of transitions of the above ions, E2 radiative properties, tune-out wavelengths and magic wavelengths of the Mg + , Ca + , Sr + and Ba + ions. We have estimated the quadrupole matrix elements and other related radiative properties of the transitions involving the nS of Ca + (n=4); Sr + (n=5) and Ba + (n=6) are presented using the dipole matrix elements given in our previous work [61]. Using these dipole dynamic polarizabilities, the magic wavelengths are obtained by locating the crossings between the dynamic polarizabilities of the nS 1/2 , nP 1/2 , nP 3/2 , nD 3/2 and nD 5/2 states of Mg + (n=3); nS 1/2 , nP 1/2 , nP 3/2 , (n − 1)D 3/2 and (n − 1)D 5/2 states of Ca + (n=4), Sr + (n=5) and Ba + (n=6) plotted against the wavelengths in the range 300-1300 nm.…”

Tune-out and magic wavelengths, and electric quadrupole transition properties of the singly charged alkaline-earth metal ions

“…These amplitudes are calculated in an iterative procedure [50], due to which they include electron correlation effects to all-order. Hence, atomic wave function of the considered states in the alkaline-earth ions are expressed as [48,51]:…”

Magnetic Sublevel Independent Magic and Tune-Out Wavelengths of the Alkaline-Earth Ions

“…Different properties of Ba + such as energies, HFS constants, electric-dipole, and parity-nonconserving transition amplitudes were repeatedly calculated earlier using various methods [11][12][13][14][15][16][17][18][19][20][21][22]. Since Ba + is a univalent ion, most of calculations were carried out in the framework of relativistic coupled-cluster method, which is particulary well suited for such cases with only core-core and core-valence correlations.…”

Role of triple excitations in calculating different properties of Ba+