细棒和光纤的直接吸收测量

C. Mühlig, S. Bublitz, M. Lorenz
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引用次数: 0

摘要

我们报道了利用激光诱导偏转(LID)技术在细棒和光纤中首次实现直接吸收测量。通常,沿着纤维加工链或多或少的技术步骤会给起始材料带来额外的损失。在最后的处理之后,通常使用所谓的回切技术与光谱仪结合来表征光纤的损耗。然而,这只适用于总损失的确定。为了优化光纤的加工,不仅要区分不同的损耗机制,而且要更好地了解可能的原因。为了测量光纤加工过程中的吸收损耗,介绍了LID技术的概念,并给出了要求、校准过程和初步结果。它允许测量细棒,例如在预制件制造过程中,以及光纤。此外,结果还显示了将新概念应用于光纤拼接或布拉格光栅刻字后的非期望吸收表征等主题的前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Direct absorption measurements in thin rods and optical fibers
We report on the first realization of direct absorption measurements in thin rods and optical fibers using the laser induced deflection (LID) technique. Typically, along the fiber processing chain more or less technology steps are able to introduce additional losses to the starting material. After the final processing, the fibers are commonly characterized regarding losses using the so-called cut-back technique in combination with spectrometers. This, however, only serves for a total loss determination. For optimization of the fiber processing, it would be of great interest to not only distinguish between different loss mechanisms but also have a better understanding of possible causes. For measuring the absorption losses along the fiber processing, a particular concept for the LID technique is introduced and requirements, calibration procedure as well as first results are presented. It allows to measure thin rods, e.g. during preform manufacturing, as well as optical fibers. In addition, the results show the prospects to also apply the new concept to topics like characterizing unwanted absorption after fiber splicing or Bragg grating inscription.
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