中文摘要：

本文利用强场近似理论研究了氢负离子在少周期激光场中的解离过程.在计算中采用了数值积分和鞍点近似两种计算方法并得到了一致的结果.更为重要的是,利用鞍点法对激光脉冲中不同时刻解离产生的电子波包之间的干涉效应进行了研究,发现光电子动量谱的主要结构是电子波包间的周期间干涉和周期内干涉共同作用的结果,并分析了周期内和周期间干涉效应对光电子能量谱的影响.最后,讨论了激光脉宽对周期内和周期间干涉效应的影响.本文的工作对进一步了解负离子光解离过程中的量子干涉效应和利用光场对其进行调控方面的研究具有意义.

英文摘要：

We theoretically study the electron detachment of negative hydrogen ions in a three-cycle linearly polarized laser field with a wavelength of 2150 nm in the context of the strong field approximation（SFA）. The numerical integration and the saddle-point（SP） methods are both used in our calculations. The results show that both the energy spectra and the momentum spectra of the photoelectrons detached from negative hydrogen ions, obtained from these two methods,accord very well with each other for the laser intensities of 1.3 × 1011W/cm~2 and 6.5 × 1011W/cm~2, respectively. It is found that there is an obvious stripe-like structure along the vertical direction of the momentum spectra when the laser intensity is 6.5 × 1011W/cm~2. To explore the main origin which leads to the specific structures of the momentum spectra, we divide the interferences of the electronic wave packets emitted at different times during the laser pulse into the intra-cycle interference and the inter-cycle interference based on the SP method. Inter-cycle interference arises from the coherent superposition of electron wave packets released at complex times during different optical cycles, whereas intra-cycle interference comes from the coherent superposition of electron packets released in the same optical cycle. It is found that when only considering the inter-cycle interference, the main structures of the momentum spectra accord well with the above-threshold detachment（ATD） rings, which indicates that the inter-cycle interference corresponds to ATD rings of the photoelectron spectrum. But when only considering the intra-cycle interference, there are stripe-like structures with left-right asymmetry along the vertical direction of the momentum spectra. So the main structures of the momentum spectra of the photoelectrons are attributed to the interplay of the intra- and inter-cycle interferences.In addition, to intuitively explain the reason why the momentum spectra depend on the intensity of the laser field, we analyze the influenc