Low-lying electronic states of BeH⁺ with the effect of inner electrons

Abstract

The potential energy curves of the low-lying electronic states of BeH⁺ molecular ion are performed by using highly accurate multi-reference configuration interaction with AV5Z basis sets for H atom and ACV5Z basis set for Be atom, 1s inner shell of Be is considered as the core orbit and the active orbit, respectively, which are used to characterise the spectroscopic properties of a manifold of singlet and triplet states. Fourteen electronic states correlated with eight dissociation channels are investigated, we have found that the a³Σ⁺ and c³Σ⁺ both are bound states, the 3³Σ⁺ possesses double wells, and the C¹Σ⁺, 3³Σ⁺, 2³Π, 2¹Π, 1¹Δ, 1³Δ, 2³Δ and 2¹Δ states are studied for the first time. Transition dipole moment, Franck–Condon factors q_υ′υ^″ and Einstein coefficients A_υ′υ^″ for A¹Σ⁺–X¹Σ⁺, 2¹Π–B¹Π, c³Σ⁺–a³Σ⁺ and b³Π–a³Σ⁺ systems have been calculated. Radiative lifetime of A¹Σ⁺–X¹Σ⁺ band system has also been determined.

Keywords:

• potential energy curves
• spectroscopic parameters
• transition dipole moment
• Franck–Condon factors
• radiative lifetime

Acknowledgements

We thank Dr Gao Yufeng for discussing the MOLPRO program.

Additional information

Funding

This work was supported by the Science and Research Foundation of Sichuan Educational Committee [grant number 13ZB0211]; Scientific Research Key Project of Yibin University [grant number 2013QD09].