The ground-state spectroscopic constants of Be2 revisited
Abstract
Extensive ab initio calibration calculations combined with extrapolations towards the infinite-basis limit lead to a ground-state dissociation energy of Be2, De=944 25 1/cm, substantially higher than the accepted experimental value, and confirming recent theoretical findings. Our best computed spectroscopic observables (expt. values in parameters) are G(1)-G(0)=223.7 (223.8), G(2)-G(1)=173.8 (169 3), G(3)-G(2)=125.4 (122 3), and B0=0.6086 (0.609) 1/cm; revised spectroscopic constants are proposed. Multireference calculations based on a full valence CAS(4/8) reference suffer from an unbalanced description of angular correlation; for the utmost accuracy, a CAS(4/16) reference including the (3s,3p) orbitals is required, while for less accurate work a CAS(4/4) reference is recommended. The quality of computed coupled cluster results depends crucially on the description of connected triple excitations; the CC5SD(T) method yields unusually good results because of an error compensation.
Turn this paper into a full lesson
ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.