超快光克尔门选通时间分辨拉曼光谱技术研究

项目名称： 超快光克尔门选通时间分辨拉曼光谱技术研究

项目编号： No.11474078

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： 王玉晓

作者单位： 哈尔滨工业大学

项目金额： 85万元

中文摘要： 飞秒时间分辨拉曼光谱技术是研究光生瞬态物种结构变化以及材料电子激发态结构的重要手段之一。在传统时间分辨拉曼光谱检测中，样品分子自身荧光的干扰限制了激发态拉曼光谱检测技术的应用。为此，本项目提出一种基于超快光克尔门的时间分辨拉曼光谱测量技术，该技术利用拉曼光与荧光时间特性的差异，利用时间门选通拉曼光、抑制荧光干扰，可实现具有高信噪比和高时间分辨率的拉曼光谱测量。本项目的主要研究内容包括：研究超快光克尔门中自衍射效应的抑制技术，实现具有高对比度的超快光克尔门，以提高时间门选通拉曼光谱检测的信噪比和时间分辨率；研制基于飞秒激光诱导产生超连续白光的波长可调谐泵浦光源，以提高激发态分子拉曼光谱检测的通用性；搭建基于超快光克尔门选通技术的时间分辨微区拉曼光谱检测系统，系统时间分辨率优于1 ps，空间分辨率优于10 μm；探索该技术在飞秒激光诱导材料光化学、光生物反应等超快动力学过程研究中的应用。

中文关键词： 拉曼光谱；超快光克尔门；飞秒激光

英文摘要： Femtosecond time-resolved Raman spectroscopy technique is an important tool to investigate the structure changes dynamics of transient species and electronic excited states of materials. In traditional time-resolved Raman measurements, however, the background fluorescence interference originated from the compound of interest itself often makes the Raman scattering signals unusable. In this project, we propose a time-resolved Raman spectroscopy based on ultrafast optical Kerr gating technique, which makes use of the time difference between the background fluorescence and Raman scattering light. By rejecting the long-lived fluorescence using the ultrafast optical gate, time-resolved Raman scattering measurements with high signal-to-noise ratio (SNR) and ultrafast time-resolution can be realized. The study includes: (1) Investigating the influence of self-diffraction effect on optical Kerr measurements and improving the SNR and time-resolution of the ultrafast optical Kerr gated (OKG) time-resolved Raman measurements. (2) Improving the universality of the time-resolved OKG Raman spectroscopy technique for excited molecules, by developing the wavelength-tunable pump light source based on supercontinuum generation induced by femtosecond laser pulses. The final goal of the project is to set up the time-resolved micro-Raman spectroscopy system based on ultrafast optical Kerr gating technique, and explore its application in research on the dynamics of some photochemistry and photobiology reactions. The system is characterized by a time-resolution less than 1 ps and spatial resolution better than 10 μm.

英文关键词： Rman spectroscopy;Ultrafast optical Kerr gate;Femtosecond laser