Department of Physics, Northwest University, Xi'an, 710069, China.
Phys Chem Chem Phys. 2011 Feb 21;13(7):2723-31. doi: 10.1039/c0cp01300e. Epub 2010 Dec 10.
Configuration-based multi-reference second order perturbation theory (CB-MRPT2) and multi-reference configuration interaction with single and double excitations (MRCISD) have been used to calculate the bending and dissociation potential energy curves (PECs) of ozone. Based on these PECs, equilibrium structures, vertical and adiabatic transition energies of the ground state and several low-lying excited states, as well as intersections and avoided crossings among the states displayed on the PECs are investigated. The energy separation of the open and ring structures and the dissociation energy of the ground state X(1)A(1) are determined by reference-selected MRCISD. Furthermore, one-dimensional cuts along the dissociation reaction coordinate for the lowest four electronic states of O(3) with (1)A' symmetry and possible pre-dissociations are studied. The Hartley band may be pre-dissociable, and the pre-dissociation limit is found to be 3871 cm(-1), which corresponds to symmetric stretching quanta n(ss) ≈ 6.
基于构型的多参考二级微扰理论(CB-MRPT2)和单双激发多参考组态相互作用(MRCISD)被用于计算臭氧的弯曲和离解势能曲线(PECs)。基于这些 PECs,研究了平衡结构、基态和几个低激发态的垂直和绝热跃迁能,以及 PECs 上显示的态之间的交点和避免交叉。通过参考选择的 MRCISD 确定了开环和环结构的能量分离以及基态 X(1)A(1)的离解能。此外,还研究了具有(1)A'对称性的 O(3)的最低四个电子态沿着离解反应坐标的一维切割和可能的预离解。哈特利带可能是可预离解的,并且发现预离解极限为 3871 cm(-1),这对应于对称伸缩量子数 n(ss)≈6。
