LOMC, FRE 3102 CNRS/ Université du Havre, 76058 Le Havre Cedex, France.
J Phys Chem A. 2011 Aug 18;115(32):8791-6. doi: 10.1021/jp202879n. Epub 2011 Jul 26.
Accurate three-dimensional quantum-mechanical scattering calculations using a time-indepedent hyperspherical method have been performed for the C((3)P) + OH(X(2)Π) → CO(a(3)Π) + H((2)S) reaction on the second excited potential energy surface of 1(4)A″ symmetry. State-to-state reaction probabilities at a total angular momentum J = 0 have been computed in a wide range of collision energies. Many pronounced resonances have been found, espcially at low energy. The product vibrational distributions are noninverted. The present results therefore suggest that the title reaction proceeds via a long-lived intermediate complex. An approximate quantum-mechanical rate constant has also been calculated, and large differences are observed with the quasi-classical trajectory prediction.
采用时独立的超球坐标方法,对 1(4)A″对称的第二激发势能面上的 C((3)P) + OH(X(2)Π) → CO(a(3)Π) + H((2)S) 反应进行了精确的三维量子散射计算。在总角动量 J = 0 下,计算了在很宽的碰撞能范围内的态到态反应几率。发现了许多明显的共振,特别是在低能区。产物振动分布是非反转的。因此,目前的结果表明,该反应通过一个长寿命的中间复合物进行。还计算了一个近似的量子力学速率常数,与准经典轨迹预测相比,观察到了很大的差异。
