%0 Journal Article
%T Energy Levels and the Land¨¦ -Factors for Singly Ionized Lanthanum
%A Bet¨¹l Kara£¿oban
%A Leyla £¿zdemir
%J Journal of Atomic and Molecular Physics
%D 2013
%R 10.1155/2013/674242
%X We have calculated the energies and the Land¨¦ -factors for 5d2, 5d6s, 6s2, 4f6p, 5d7s, 5d6d, 4f2, 6p2, 6s6d, 6s7s, 4f6s, 4f5d, 5d6p, 6s6p, 4f7s, 4f6d, 5d7p, and 6s7p excited levels of singly ionized lanthanum (La II). These calculations have been carried out by using the multiconfiguration Hartree-Fock method within the framework of the Breit-Pauli Hamiltonian (MCHF+BP) and the relativistic Hartree-Fock (HFR) method. The obtained results have been compared with other works available in the literature. A discussion of these calculations for La II in this study has also been in view of the MCHF+BP and HFR methods. 1. Introduction Lanthanides constitute a group of elements characterized by similar chemical and physical properties. The presence of this group in the periodic table is determined by behaviour of the radial part of the wave function for the 4f orbital, which collapses for the values of atomic number and fills in the first (internal) minimum of the electrostatic potential [1]. The rare-earth element lanthanum ( ) is a product of neutron-capture fusion reactions that occur in the late stages of stellar evolution. Lanthanum¡¯s abundance relative to other rare earths in stars of different metallicities can lead to insights on the nature of the dominant neutron-capture production sites throughout the Galaxy¡¯s history [2]. The lanthanum atom is the first member of the rare-earth elements. It has two naturally occurring isotopes: 138La (0.085%) and 139La (99.910%). Meggers viewed first the spectra of singly ionized lanthanum [3, 4]. Later, Russell and Meggers analyzed the spectra of La II [5]. Grevesse and Blanquet determined the abundance of singly ionized lanthanum in the sun [6]. Spector and Gotthelf performed configuration interaction in La II [7]. Xie and coworkers investigated Rydberg and autoionization states of the singly ionized lanthanum [8]. First, ionization potential of lanthanides by laser spectroscopy was studied by Worden et al. [9]. Sugar and Reader obtained by means of a semiempirical calculation ionization potential of singly ionized lanthanum [10]. Eliav et al. reported ionization potential and excitation energies of La II [11]. Theoretical energy levels in La II were calculated by Ku£¿aga-Egger and Migda£¿ek [12]. In the past, different groups [13¨C26] investigated oscillator strengths, transition probabilities, lifetimes, and the hyperfine structure in singly ionized lanthanum by various experimental and theoretical methods. A list of energy levels for excited states was completed and presented by Sansonetti and Martin [27] and can
%U http://www.hindawi.com/journals/jamp/2013/674242/