近红外激光辐射产生的光纤变细

Iberoamerican Meeting of Optics and the Latin American Meeting of Optics, Lasers and Their Applications Pub Date : 2013-11-18 DOI:10.1117/12.2026258

Marta Nespereira, J. Coelho, F. Monteiro, M. Abreu, J. Rebordão

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引用次数: 3

摘要

在生产光纤传感器中使用CO2激光器是一个很好的应用，特别是在编写长周期光纤光栅方面。这些激光器发出的中红外辐射(MIR)被通常用作光纤传感器的玻璃光纤高度吸收，随之而来的加热容易导致熔化。利用这一优点，演示了该辐射在光纤变细中的应用。该激光器采用连续波发射CO2激光器，以短脉冲为脉冲，利用圆柱形透镜将光束聚焦在光纤上，并利用小重量产生拉动光纤的作用。分析了所得到的锥体的特性(长度、对称度和中心直径或腰围)以及过程中涉及的操作参数(激光功率、脉冲持续时间和脉冲数)的影响。该技术的潜力得到了证明，并特别关注其在光纤传感器开发中的应用。

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Optical fiber tapers produced by near-infrared laser radiation

The use of CO2 lasers in the production of optical fiber sensors is a well proven application, especially in writing long period fiber gratings. The mid-infrared radiation (MIR) emitted by these lasers is highly absorbed by the glass optical fibers commonly used as fiber-based sensors, and the consequent heating easily leads to melting. Making use of this advantage, the application of this radiation in the tapering of optical fibers is demonstrated. A continuous wave emission CO2 laser is used in short duration pulses, a cylindrical lens focuses the beam on the fiber and a small weight produces the effect of pulling the fiber. The resulting tapers’ characteristics (length, degree of symmetry and central diameter, or waist) are analyzed as well as the influence of the operational parameters involved in the process (laser power, pulse duration and number of pulses). The potential of this technique is demonstrated with special attention to its use in the development of optical fiber-based sensors.

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Iberoamerican Meeting of Optics and the Latin American Meeting of Optics, Lasers and Their Applications

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