论文标题
IR $ 5D^{7} 6S^{2} \^{4} \!f_ {9/2} \ to(\ mbox {odd},j = 9/2)$ line in 247.587 nm in(\ mbox} \
Electronic isotope shift factors for the Ir $5d^{7}6s^{2} \ ^{4}\!F_{9/2} \to (\mbox{odd},J= 9/2)$ line at 247.587 nm
论文作者
论文摘要
我们介绍了$ 5D^{7} 6S^{2} \^{4} \^{4} \!f_ {9/2} \ to(\ mbox {odd},j = 9/2)$在247.587 nm的核方RADII和NOUID IIR, $ \ textit {et al。} $(2020)]。完全相对论的多浓度狄拉克 - 摩托 - - 摩根法和相对论构型相互作用方法用于执行原子结构计算。采用了其他属性,例如$ \ textit {共享规则} $,landé$ g $ ractor或$ \ textit {phase trocking} $,以确保对目标奇数级别的足够描述。
We present the theoretical calculations of the electronic isotope shift factors of the $5d^{7}6s^{2} \ ^{4}\!F_{9/2} \to (\mbox{odd},J= 9/2)$ line at 247.587 nm, that were recently used to extract nuclear mean square radii and nuclear deformations of iridium isotopes [Mukai $\textit{et al.}$ (2020)]. The fully relativistic multiconfiguration Dirac-Hartree-Fock method and the relativistic configuration interaction method were used to perform the atomic structure calculations. Additional properties such as the $\textit{sharing rule}$, Landé $g$ factors or $\textit{phase tracking}$ were employed to ensure an adequate description of the targeted odd level.
