超快X射线光源的相干性

项目名称： 超快X射线光源的相干性

项目编号： No.11475249

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： 李宾

作者单位： 中国科学院上海应用物理研究所

项目金额： 120万元

中文摘要： 前沿科学实验技术的发展对高亮度短波长的X射线光源充满了期待，而近年来自由电子激光技术的发展使产生高亮度可调谐的超快X射线光源成为了可能。根据其发光机理主要分为自发放大模式(即SASE)和激光诱导的高增益模式(如HGHG)。本课题以在建中的X射线自由电子激光大科学装置为例，具体阐述了两种模式的特性。SASE辐射脉冲有随机和不稳定性，它的辐射功率时域分布包含多个独立相干的毛刺，是部分相干光源。而HGHG脉冲是一种具有全相干特性的高稳定光源，有更高的峰值功率和光源亮度。本项目旨在研发高精度的相干性测量装置，对X射线自由电子激光的这两种模式的时间相干长度和脉冲长度进行测量，可为X射线自由电子激光装置的调试和优化提供技术支持，同时系统研究其辐射增益中新的物理机制和现象。本项目也计划将此测量装置用于阿秒脉冲的测量，将首次在时域中直接测量阿秒脉冲的长度，并探索许多阿秒科学中的未知问题。

中文关键词： 自由电子激光；X射线光学；超快光学；相干性；高次谐波

英文摘要： With the development of the 4th generation light source (i.e. free electron laser), it comes into reality to generate the high brilliance ultrafast X-ray pulse with broad tunability. The free electron laser includes two major categories: SASE (Self-Amplified Spontaneous Emission) or Seeded (e.g. HGHG-High Gain Harmonic Generation) FEL. In a SASE-FEL, the electron bunch is interacting with and modulated by its own radiation, forming micro-bunches to give off coherent radiation, which origins from the random phase noise. SASE-FEL has large shot-by-shot fluctuation, and its longitudinal radiation profile includes many individual coherent spikes which are mutually uncorrelated and incoherent, corresponding to a partial coherent light-source. HGHG-FEL adopts a seed optical laser to modulate the electron bunch both in energy and in density, after dispersion compensation, the micro-bunched electron pulse irradiates at the harmonics of the seed laser. Compared to SASE-FEL, HGHG-FEL has higher peak power and brilliance, with a narrow Gaussian spectrum, corresponding to a stable and fully coherent light source. The major mission of this proposal is to develop an advance X-ray instrument, to measure the longitudinal coherence and the pulse duration of both SASE and HGHG pulses. It is supposed to provide the technical support for the commissioning and optimization of the future X-ray free electron laser sources , then to investigate the new phenomena and physics in the X-ray FEL. We also plan to use this device to explore the unknown phenomena in the atto-second science, especially it would be expected to directly measure the atto-second pulse duration in the time domain as the first time.

英文关键词： Free Electron Laser;X-ray;Ultrafast Optics;Coherence;High-order Harmonics