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本文基于2022年报道的一个SiH 2(1 1A′)势能面, 运用切比雪夫波包方法对$ \text{H}{(}^{2}\text{S})+\text{SiH}({\text{X}}^{2}\Pi ; \nu = 0, $$ j = 0)\to \text{Si}{(}^{1}\text{D})+{\text{H}}_{2}({\text{X}}^{1} \Sigma_{g}^{+}) $反应体系在$ 1.0 \times {10^{ - 3}} $—1.0 eV的碰撞能量范围内进行动力学研究. 分别应用忽略科里奥利耦合效应的耦合态近似和精确量子力学计算得到该反应的反应概率、积分散射截面和速率 常数. 计算发现在 J较大时, 科里奥利耦合效应显著提升该反应的反应概率, 忽略科里奥利耦合效应会使H + SiH 反应的积分散射截面和速率常数减小, 对于速率常数而言, 温度越高, 两种计算方法所得结果的差距越大. 精确的量子力学计算结果表明, H + SiH 反应的速率常数在300—1000 K之间几乎不随温度改变, 这与H + CH 反应非常相似, 但是在数值上, 前者比后者大1个数量级.Initial state-selected and energy-resolved reaction probabilities, integral cross sections(ICSs), and thermal rate constants of the $ \text{H}{(}^{2}\text{S})+S\text{iH}({\text{X}}^{2}\Pi; \nu = 0\text{ },j = 0)\to \text{Si}{(}^{1}\text{D})+{\text{H}}_{2}({\text{X}}^{1} \Sigma_{g}^{+}) $ reaction are calculated within the coupled state(CS) approximation and accurate calculation with full Coriolis coupling(CC) by a time-dependent wave packet propagation method (Chebyshev wave packet method). Therefore, a new ab initio global potential energy surface (PES) of the electronic ground state (1 1A′) of the system, which was recently reported by Li et al. [
Phys. Chem. Chem. Phys.2022 247759 ], is employed. The contributions of all partial waves to the total angular momentum J= 80 for CS approximation and J= 90 for CC calculation are considered to obtain the converged ICSs in a collision energy range of 1.0 ×10 –3-1.0 eV. The calculated probabilities and ICSs display a decreasing trend with the increase of the collision energy and show an oscillatory structure due to the SiH 2well on the reaction path. The neglect of CC effect will lead to underestimation of the ICS and the rate constant due to the formation of an SiH 2complex supported by the stationary points of the SiH 2(1 1A′) PES. In addition, the results of the exact calculation including CC effect are compared with those calculated in the CS approximation. For the reaction probability, CC and CS calculations change with similar tends, shown by their observations at small total angular momentum J= 10, 20 and 30, and the CC results are larger than the CS results almost in the whole considered energy range at large total angular momentum J= 40, 50, 60 and 70. The gap between CS and CC probability get more pronounced with increasing of J, which reveals that Coriolis coupling effects become more and more important with Jincreasing for the title reaction .Moreover, the exact quantum-wave calculations show that the thermal rate constant between 300 K and 1000 K for the title reaction shows a similar temperature independent behavior to that for the H + CH reaction, but the value of the rate constant for the H + SiH reaction is an order of magnitude larger than that for the H + CH reaction.-
Keywords:
- reaction probability/
- integral cross section/
- rate constant
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参量 H+SiH 散射坐标R的范围 (10–16, 22) 散射坐标R内格点数 383 内部坐标r的范围 (0.5, 16) 内部坐标r内格点数 255 角度γ范围 (90°, 180°) 角度格点数 200 阻尼起点Rd(rd) 18.0(14.0) 阻尼范围dR(dr) 0.0005(0.001) 初始波包的中心位置R0 16.0 初始波包的能量E0/eV 0.15 初始波包的宽度δ 0.3 光谱控制 0.1 流计算的位置rf 13.8 传播步数 100000 
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