中文摘要：

利用包含转动自由度在内的含时薛定谔方程研究了Br2分子在波长范围为360—610 nm的光解离动力学.通过计算得到了Br2分子在四个特征波长处的切片解离影像,并经过分析得到了与切片解离影像相对应的动能分布;计算了Br2分子在波长范围为360—610 nm内总的动能分布,以及从A,B和C三个电子态解离的碎片各自所对应的动能分布;计算了A,B和C三个电子态各自的解离概率以及碎片产物的分支比Γ（Br^＊（Br＋Br^＊））随波长的变化.

英文摘要：

We study the photodissociation of Br2 in a wavelength range from 360 nm to 610 nm in the near-visible UV continuum band based on the calculation of time-dependent quantum wave packet including the rotational degree of freedom.We calculate four representative samples of two-dimensional（2D） slice images taken from photolysis of Br2 molecules,in which the different rings in the 2D slice images are corresponding to the different photodissiation channels. The radius of each 2D slice image ring is positively related to kinetic energy of photofragment. The maximum photofragment flux perpendicular or parallel to the photolysis polarization is also related to photodissiation channel. Furthermore, we calculate the total kinetic energy distribution P（E） and the P（E） distribution from the respective electronic excited states A, B and C in the wavelength range of 360-610 nm, from which we find that the wavelengths corresponding to the maximum dissociation probability from respective electronic excited states A, B and C are 510 nm, 469 nm, and 388 nm,respectively. As is well known, not only the total dissociation probability, but also the respective dissociation probability of electronic excited states is dependent on the laser wavelength. We also calculate the dissociation probabilities from electronic excited states A, B and C, respectively. We find that the dissociation probability of electronic excited state A is not significant when λ 480 nm and that the peak intensity of the dissociation probability to the A state is about13.0% of that to the C state, while that to the B state is about 43.4%. In addition, because the electronic excited states A and C are related to the photodissociation channel Br ＋ Br, and the electronic excited state B is corresponding to the photodissociation channel Br ＋ Br^＊, the images which reveal the involvement of more than one product channel can be analyzed by the respective channel branching ratios. At the short wavelength（λ 〈400 nm） the branching ratio Γ（Br^＊/?