基于超短脉冲诱导的高能重散射光电子研究

项目名称： 基于超短脉冲诱导的高能重散射光电子研究

项目编号： No.11474130

项目类型： 面上项目

立项/批准年度： 2015

项目学科： 数理科学和化学

项目作者： 马日

作者单位： 吉林大学

项目金额： 88万元

中文摘要： 研究原子分子与超短超强光脉冲相互作用，测量所辐射出的光子或电离出的电子是实现原子分子结构超高精度测量的最重要的技术途径。亚飞秒、埃空间尺度的分子轨道成像或微分散射截面等结构信息是深入理解化学反应本质的基础。所以基于超短脉冲诱导的三步模型所产生的相干辐射光场、弹性碰撞散射电子以及非弹性碰撞引起的激发或电离（如库仑爆炸）都是直接分析原子分子结构信息的重要手段。本研究计划,欲利用多周期至少周期载波包络相位稳定的飞秒激光作用于原子及分子，研究其弹性碰撞重散射光电子的分布特性。对高能重散射的光电子成像特征分析,直接体现了研究体系的微分散射截面信息,达到对电子-离子微分散射截面的直接测量。分子 轨道性质决定了重散射电子的分布。分子准直技术的应用,将使得重散射电子的干涉效应等更加突显,实现对分子轨道的精密时空测量。从简单分子到复杂分子的扩展研究为光控化学反应提供关键的量子调控基础。

中文关键词： 阈上电离；重散射；微分散射截面；速度成像

英文摘要： The study of photons and electrons irradiated by ultra-short and ultra-intense laser pulses with atoms and molecules is an important way for paving atomic and molecular structure information in high resolution. The molecular structures in sub-femtosecond and Angstrom resolution, such as orbital tomography or differential scattering cross sections, are essential understanding for chemical reaction.The tomographic reconstruction of molecular orbtial can be investigated by multi-cycle to few-cycle femtosecond laser pulses, which interact with atoms/molecules through tunelling effect based on the three-step model mechanism. In the project, we plan to study the imaging of the rescattering photoelectron generated by the interaction between multi to few-cycle femtosecond laser field with CEP stabilization and atom/molecule.The rescattering photoelectron will provide a direct information about differential scattering cross sections, which shows a temporal scale from femtosecond to sub-femtosecond. And also the characteristic of photoelectreon distribution, which be decided by the rescattering process, would reflect the molecular orbital structure. We can use this to construct orbitals. For different targets, the symmetry of orbitals will affect the imaging. And this way is an effective method for controlling chemcial reations in an ultrafast scale.The development for diatomic and polyatomic molecules is a crucial way for quantum control of chemical reactions.

英文关键词： Above Threshold Ionization;Rescatterring;Differential Scattering Cross Sections;Velocity Map Imaging