A Fully Relativistic Approach to Photon Scattering and Photoionization of Alkali Atoms

Abstract: A fully relativistic approach to calculating photoionization and photon-atom scattering cross sections for quasi one-electron atoms is presented. An extensive set of photoionization cross sections have been calculated for alkali atoms: lithium, sodium, potassium, rubidium and cesium. The importance of relativistic effects and core polarization on the depth and position of the Cooper minimum in the photoionization cross section is investigated. Good agreement was found with previous Dirac-based B-spline R-matri… Show more

“…The magnitude of the vibrationally-resolved photoionization cross sections increases as the initial vibrational level increases, while the ionization threshold shifts to lower energies. The target structure formulated here and previously develop photon scattering techniques [45,46] will be uti-lized to calculate Rayleigh and Raman scattering cross sections for H + 2 , and H 2 in future work.…”

Photoionization from the ground and excited vibrational states of H$_{2}^{+}$

“…The magnitude of the vibrationally-resolved photoionization cross sections increases as the initial vibrational level increases, while the ionization threshold shifts to lower energies. The target structure formulated here and previously develop photon scattering techniques [45,46] will be uti-lized to calculate Rayleigh and Raman scattering cross sections for H + 2 , and H 2 in future work.…”

Photoionization from the ground and excited vibrational states of H$_{2}^{+}$

Precise Wavelengths of 4P(2P1/2) → nd 2D3/2 AND 4P(2P3/2) → nd 2D3/2,5/2 Rydberg Transitions in Neutral Potassium Calculated Via the Screening Constant Per Unit Nuclear Charge Method

Photoionization, Rayleigh, and Raman scattering cross sections for the alkali atoms