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1、多原子体系的化学反应动力学研究摘 要:利用自主研?l 的窄线宽 OPO 激光和受激Raman 技术首次在交叉分子束中实现了对氢气振动激发态的研究,并在 F+HD(v=1)HF+D 反应中观察到只能通过反应物振动激发得以探测的反应共振态,极大地提高了对反应共振态的认识。通过实验与理论对 F+CHD3 反应中 CH 振动激发对反应的影响进行研究,在实验上发现了 CH 振动激发会导致处于某些振转态反应产物的轻度减少,与刘国平等人在 Science 上所报导的大大抑制该反应有着明显的差异。更有意思的是我们理论研究发现总的来说 CH 振动激发能促进该反应的进行,而实验所发现的抑制作用是由于所测量产物的局
2、限性所引起的。另外,还在 SO2 光化学动力学中发现了振动激发对其反常同位素效应的影响,研究了HOD 振动激发对其在 Cu(111)面解离吸附的影响。在理论方法发展方面,发展了一种新的减维模型,使在态-态水平研究 X+YCZ3XY+CZ3 类型的反应成为可能,通过对 J=0 情况下 H+CH4 反应的计算发现该模型有很高的精度。利用该模型,我们计算得到了 H+CD4 反应的微分截面,与实验取得了高度吻合,表明已能较为精确地计算多原子反应的态-态微分截面。 关键词:多原子分子体系 化学反应动力学 振动激发态 非绝热量子动力学方法 The Annual Report of The Chemical
3、 Reaction Dynamics Study on the Polyatomic System Zhang Donghui2 Dai Dongxu1 Xie Daiqian2 Bian Wensheng3 (1.Dalian Institute of Chemical Physics, Chinese Academy of Sciences; 2.Nanjing University; 3.Institute of Chemistry, Chinese Academy of Sciences) Abstract:In the past year, under the support of
4、the 973 program we have made significant progress on studying the effects of reagent vibrational excitation of reaction dynamics. With the state-of-the-art high-power nanosecond OPO laser developed in our lab, we successfully carried out a crossed-molecular beam experiment on vibrationally excited h
5、ydrogen molecule for the first time using the stimulated Raman process. In the F+HD(v=1)HF+D reaction, we observed dynamical resonances which is only accessible by reagent vibrational excitation, substantially advanced our understanding on dynamical resonance in chemical reactions. We also carried o
6、ut a joint experimental and theoretical study on the effects of CH stretching excitation on the F+CHD3 reaction. Experimentally, we found that CH stretching excitation only leads to slight reduction of reactivity of the reaction for some detected product states, very different from what was reported
7、 by Liu and coworkers on Science. However, our theoretical study revealed that CH excitation actually prompts the reaction and the reduction of reactivity observed by experiment is caused by limited measurements on the product states. In addition, we uncovered the Vibronic original of the sulfur mas
8、s-independent isotope effects in photoexcitation of SO2, studied the effects on HOD vibrational excitation on the chemisorption of the molecule on Cu(111) surface. On the theory side, we developed a new reduced-dimensionality model to calculate state-to-state differential cross section for the X+YCZ
9、3XY+CZ3 type of reactions, which was found to have a qualitative level of accuracy for the H+CH4 reaction with J=0. Using the new mode, we computed differential cross sections for the H+CD4 reaction. Excellent agreement was achieved between theory and experiment, indicating we are able to calculate accurate state-to-state differential cross section of this type of polyatomic reactions. We published more than 24 SCI papers, including one in Science, one in PNAS. Key Words:Polyatomic system; Reaction dynamics; Vibrationally excited state; Nonadiabatic quantum dynamics
