Mid-IR fused fiber couplers

SPIE LASE Pub Date : 2016-04-22 DOI:10.1117/12.2203450

G. Stevens, T. Woodbridge

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引用次数: 20

Abstract

We present results from our recent efforts on developing single-mode fused couplers in ZBLAN fibre. We have developed a custom fusion workstation for working with lower melting temperature fibres, such as ZBLAN and chalcogenide fibres. Our workstation uses a precisely controlled electrical heater designed to operate at temperatures between 100 – 250°C as our heat source. The heated region of the fibers was also placed in an inert atmosphere to avoid the formation of microcrystal inclusions during fusion. We firstly developed a process for pulling adiabatic tapers in 6/125 μm ZBLAN fibre. The tapers were measured actively during manufacture using a 2000 nm source. The process was automated so that the heater temperature and motor speed automatically adjusted to pull the taper at constant tension. This process was then further developed so that we could fuse and draw two parallel 6/125 μm ZBLAN fibres, forming a single-mode coupler. Low ratio couplers (1-10%) that could be used as power monitors were manufactured that had an excess loss of 0.76 dB. We have also manufactured 50/50 splitters and wavelength division multiplexers (WDMs). However, the excess loss of these devices was typically 2 - 3 dB. The increased losses were due to localised necking and surface defects forming as the tapers were pulled further to achieve a greater coupling ratio. Initial experiments with chalcogenide fibre have shown that our process can be readily adapted for chalcogenide fibres. A 5% coupler with 1.5 dB insertion loss was manufactured using commercial of the shelf (COTS) fibres.

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中红外熔丝光纤耦合器

我们介绍了我们最近在ZBLAN光纤中开发单模熔接耦合器的成果。我们已经开发了一个定制的融合工作站，用于处理较低熔化温度的纤维，如ZBLAN和硫族化物纤维。我们的工作站使用精确控制的电加热器，设计在100 - 250°C之间的温度下运行作为我们的热源。纤维的加热区域也被放置在惰性气氛中，以避免在融合过程中形成微晶夹杂物。我们首先开发了一种在6/125 μm ZBLAN纤维中拉出绝热锥的工艺。锥度在制造过程中使用2000 nm光源进行了主动测量。该过程是自动化的，因此加热器温度和电机速度自动调节，以恒定的张力拉锥度。然后进一步发展该工艺，以便我们可以融合并绘制两个平行的6/125 μm ZBLAN光纤，形成单模耦合器。低倍率耦合器(1-10%)可用于功率监测器，其过量损耗为0.76 dB。我们还制造了50/50分光器和波分复用器(wdm)。然而，这些器件的额外损耗通常为2 - 3db。增加的损失是由于局部颈缩和表面缺陷的形成，因为锥度进一步拉，以实现更大的耦合比。对硫族纤维的初步实验表明，我们的工艺可以很容易地适用于硫族纤维。使用商用货架(COTS)光纤制造了插入损耗为1.5 dB的5%耦合器。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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SPIE LASE

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