Semiclassical wave packet calculations on ion–molecule reactions: Studies on B+(3Pu)+H2 reaction

Globally Accurate Potential Energy Surface for BH2+2(13A') Using the Switching Function Formalism

A great number of ab initio energy points are calculated using the aug-cc-pV(Q,5)Z basis sets at the multireference configuration interaction level and extrapolated to the complete basis set limit. An exact three-dimensional potential energy surface of the ground-state BH₂⁺ is obtained. A switching function is developed to model the transition of B⁺(³P) to B⁺(¹S) to guarantee the reliable behavior at B⁺(³P) + H₂(X¹∑_g⁺) and BH⁺(X²∑⁺) + H(²S) dissociation limits. The various topographic features of the new global potential energy surface are discussed in detail, showing a good agreement with the previous results from the theory. The quasi-classical trajectory method is utilized to calculate the integral cross sections of the B⁺(³P) + H₂(X¹∑_g⁺) (v = 0, j = 0) → BH⁺(X²∑⁺) + H(²S) reaction, which can provide another support for reliability of the title potential energy surface.