Guo Rui, Balasubramanian K
Center for Image Processing and Integrated Computing, University of California, Davis, Livermore, California 94550, USA.
J Chem Phys. 2004 Apr 22;120(16):7418-25. doi: 10.1063/1.1688755.
The RuC molecule has been a challenging species due to the open-shell nature of Ru resulting in a large number of low-lying electronic states. We have carried out state-of-the-art calculations using the complete active space multiconfiguration self-consistent field followed by multireference configuration interaction methods that included up to 18 million configurations, in conjunction with relativistic effects. We have computed 29 low-lying electronic states of RuC with different spin multiplicities and spatial symmetries with energy separations less than 38,000 cm(-1). We find two very closely low-lying electronic states for RuC, viz., 1Sigma+ and 3Delta with the 1Sigma+ being stabilized at higher levels of theory. Our computed spectroscopic constants and dipole moments are in good agreement with experiment although we have reported more electronic states than those that have been observed experimentally. Our computations reveal a strongly bound 1Sigma+ state with a large dipole moment which is most likely the experimentally observed ground state and an energetically close 3Delta state with a smaller dipole moment. Overall our computed spectroscopic constants of the excited states with energy separations less than 18,000 cm(-1) agree quite well with those of the corresponding observed states.
由于钌(Ru)的开壳层性质导致大量低能电子态,RuC分子一直是一个具有挑战性的物种。我们使用完全活性空间多组态自洽场,随后采用包含多达1800万个组态的多参考组态相互作用方法,并结合相对论效应,进行了前沿计算。我们计算了RuC的29个低能电子态,它们具有不同的自旋多重性和空间对称性,能量间隔小于38000 cm⁻¹。我们发现RuC有两个非常接近的低能电子态,即¹Σ⁺和³Δ,其中¹Σ⁺在更高理论水平下更稳定。尽管我们报道的电子态比实验观测到的更多,但我们计算得到的光谱常数和偶极矩与实验结果吻合良好。我们的计算揭示了一个具有大偶极矩的强束缚¹Σ⁺态,它很可能是实验观测到的基态,以及一个能量相近但偶极矩较小的³Δ态。总体而言,我们计算得到的能量间隔小于18000 cm⁻¹的激发态光谱常数与相应观测态的光谱常数相当吻合。