中文摘要：

利用离子速度成像方法对n-C5H11I分子在266和277nm下的光解动力学进行了研究.实验分析了I＊（5p2P1/2）和I（5p2P3/2）的离子影像,得到其相应速度、角度分布和相对量子产率,并根据相对量子产率和角度分布计算了不同解离通道的比例.实验发现n-C5H11I的3Q0和1Q1态之间存在较强的耦合效应,并且随着波长的减小,这种非绝热耦合作用有递增的趋势.由离子影像（I＊和I）的角度分布结果发现,在同一解离激光波长下I＊的各向异性参数β值比I的β值小,其中I＊主要由3Q0直接解离产生,而I绝大多数是由分子先跃迁到3Q0再经过3Q0→1Q1的非绝热耦合产生.

英文摘要：

Photodissociation dynamics of n-C5H11I at 266 and 277 nm was investigated using velocity map ion imaging. Speed and angular distributions of the corresponding photofragments were obtained by detecting ion images of I＊（5p 2P1/2） and I （5p 2P3/2）. Quantum yields of I＊and I were also obtained. The contribution of parallel and perpendicular transitions and the relative fraction of each potential surface at different excitation wavelengths were determined. These determinations were based on the relative quantum yield and the angular distribution. It is found that a very strong nonadiabatic coupling exists between the two excited states 3Q0 and 1Q1,and the curve crossing probability rises gradually with a decrease in the excitation wavelength. Additionally,analysis of the angular distributions for the I ＊ channel and the I channel at the same excitation wavelength revealed that the population of 3Q0 was the main pathway following excitation. However,when compared to the situation that the I＊ channel mainly results from the direct dissociation of the 3Q0 state,the I channel originates mostly from the nonadiabatic coupling between 3Q0 and 1Q1.