用于机载水蒸汽DIAL的注入种子光学参量振荡器

A. Fix, V. Weiss, G. Ehret
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引用次数: 14

摘要

要详细了解水蒸气在全球气候系统中的作用,就需要在大气中进行高时空分辨率的精确测量。一种适合传输这些数据的技术是应用于近红外光谱范围的机载差分吸收激光雷达(DIAL)。为了利用DIAL技术准确测定大气中的水蒸气浓度,激光雷达发射机的光谱特性和可调性是非常重要的。结果表明,利用染料激光器或激光二极管的辐射注入播种技术,光参量振荡器(opo)的谱线变窄,达到了光谱和能量要求。当OPO未被播种时,它的光谱宽度足够宽,吸收线的吸收可以忽略不计。因此,非种子OPO辐射可用于离线测量,这大大简化了DIAL设置。此外,利用激光二极管测量了近红外吸收谱线的谱线参数。它们的精确测定对于进行精确的DIAL测量是很重要的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Injection-seeded optical parametric oscillator for airborne water vapour DIAL
Any detailed understanding of the role of water vapour in the global climate system requires precise measurements in the atmosphere with high temporal and spatial resolution. A technique that is appropriate to deliver these data is airborne differential absorption lidar (DIAL) applied in the near-infrared spectral range. In order to accurately determine atmospheric water vapour concentrations by means of the DIAL technique tunability and spectral properties of the lidar transmitter are very important. It is demonstrated that the spectral and energy requirements are achieved using optical parametric oscillators (OPOs) that are line-narrowed by the technique of injection seeding with radiation from dye lasers or from laser diodes. When the OPO is unseeded its spectral width is broad enough to suffer only negligible absorption from the absorption lines. Therefore, the unseeded OPO radiation can be used for off-line measurement, which simplifies the DIAL set-up significantly. In addition, the laser diodes were employed to measure line parameters of a selected absorption line in the near-IR. Their precise determination is important in order to make accurate DIAL measurements.
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