New analytical potential energy function for doubly charged diatomic molecules

doi:10.1088/1009-1963/14/2/017

Abstract

Abstract A new analytical potential function for doubly charged diatomic ions is proposed as $V(r)=(\sum_{n=0}^ka_nR^{n-1})\exp(-a_{k+1}R)+\frac{C}{R}$, where a_n, a_k+1 and C are parameters, and R is the nuclear distance. This function can be used to describe the potential curves for doubly charged diatomic ions with both potential minimum and maximum, or without any stationary point. As examples, potential functions of this form for ground states of BH²⁺, He₂²⁺ and HF²⁺ have been derived. The calculations using the theoretical method QCISD with basis set 6-311++G^* have shown that the potential minimum of BH²⁺ is at R_min=0.147nm, the maximum at R_max=0.185nm, and ΔE=E_max-E_min=0.062 eV; for He₂²⁺R_min=0.0736nm, R_max =0.105nm, and ΔE= E_max-E_min=0.71 eV. It is found that the potential curve for HF²⁺ is one with a singly repulsive branch. The force constants and spectroscopic data for BH²⁺ and He₂²⁺ have also been worked out.

Keywords: potential energy function dication dissociation limit spectroscopic data

Received: 08 June 2004
Revised: 01 November 2004
Accepted manuscript online:

PACS:	34.20.-b	(Interatomic and intermolecular potentials and forces, potential energy surfaces for collisions)
	33.20.Tp	(Vibrational analysis)
	33.15.Mt	(Rotation, vibration, and vibration-rotation constants)

Fund: Project supported by the Youth Science and Technology Foundation of Sichuan Province, China (Grant No 03ZQ026-061).

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Wang Fan-Hou (王藩侯), Yang Chuan-Lu (杨传路), Zhu Zheng-He (朱正和), Jing Fu-Qian (经福谦) New analytical potential energy function for doubly charged diatomic molecules 2005 Chinese Physics 14 317

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New analytical potential energy function for doubly charged diatomic molecules

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