中文摘要：

纯转动拉曼激光雷达是探测大气温度廓线的重要手段之一,其正常工作需要配置其他并行校正设备,制约其在气象及环境监测领域中的实用化进程.基于大气氮气分子的纯转动拉曼谱型对温度的依赖性,提出并设计了绝对探测大气温度廓线的纯转动拉曼激光雷达系统.系统采用波长532 nm且脉冲能量300 m J的激光激励源和口径250 mm卡塞格林望远镜的接收器,设计了衍射光栅和光纤Bragg光栅结合的多通道并行纯转动拉曼光谱分光系统;仿真分析氮气和氧气分子的纯转动拉曼散射谱线间关系,优化选择了6条氮气分子的纯转动拉曼谱线以直接反演大气温度,设计了两级滤光器间转接光纤阵列的结构;基于最小二乘原理推导了绝对探测大气温度的反演算法,并结合标准大气模型,分析了纯转动拉曼激光雷达绝对探测大气温度的探测性能.结果表明,所设计纯转动拉曼激光雷达系统可直接反演大气温度廓线,在测量时间17 min内,温度偏差小于0.5 K的探测高度达2.0 km.

英文摘要：

A pure rotational Raman lidar has become one of valid methods of profiling atmospheric temperature. However, its proper operation generally needs a certain collocated device of atmospheric temperature to calibrate three retrieval coefficients. This fact seriously restricts the applications of pure rotational Raman lidar in the meteorology and environment fields. In order to execute the detection technique of atmospheric temperature without calibration, we present and design a pure rotational Raman lidar based on the dependence of atmosphere molecular rotational Raman spectral envelope on temperature. It is configured with a laser having a pulse energy of 300 m J, a pulse repetition rate of 20 Hz, and a Cassegrain telescope with a clear aperture of 250 mm. A two-stage multi-channel pure rotational Raman spectroscopic filter is proposed to extract efficiently the rotational Raman spectral lines with more than 70 d B suppression to the elastic-scattering optical signals. It is configured with one blazed diffraction grating, one convex lens, one linear fiber array and seven groups of fiber Bragg gratings. The blazed diffraction grating and fiber Bragg grating are separately utilized as the primary and secondary spectroscope. The tailor-made fiber array, which is composd of ten single mode fibers of 460-HP type and one multi-mode fiber, is designed to transfer the spectral signals. One end face of multi-mode fiber lies in the focal point of telescope, and then it transfers the lidar echo signals to the pure rotational Raman spectroscopic filter. The other end face of multi-mode fiber lies in the focal point of convex lens. The ten single mode fibers are used to transfer the optical signals from the primary spectroscope to the secondary, and their end faces lie in the focal plane of convex lens. Six pure rotational Raman spectral lines of nitrogen molecule in the anti-Strokes branch are chosen under the condition of the 0.09-nm forbidden band, with the consideration of the relationship between the pure rotational Raman