Chalcogenide glass fibers for mid-infrared transmission

Chalcogenide glass fibers for mid-infrared transmission have been fabricated in As-S, As-Ge-Se, and Ge-S glass systems using high purity materials. The preparation of unclad, Teflon FEP clad, and chalcogenide glass clad fibers and their transmission loss characteristics are reported. It is found tha...

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Bibliographic Details
Published in:Journal of lightwave technology 1984-10, Vol.2 (5), p.607-613
Main Authors: Kanamori, T., Terunuma, Y., Takahashi, S., Miyashita, T.
Format: Article
Language:English
Subjects:
Absorption
Applied sciences
Circuit properties
Crystalline materials
Electric, optical and optoelectronic circuits
Electronics
Exact sciences and technology
Glass
Hydrogen
Impurities
Integrated optics. Optical fibers and wave guides
Optical and optoelectronic circuits
Optical fiber communication
Optical fibers
Optical materials
Propagation losses
Tail
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Summary:Chalcogenide glass fibers for mid-infrared transmission have been fabricated in As-S, As-Ge-Se, and Ge-S glass systems using high purity materials. The preparation of unclad, Teflon FEP clad, and chalcogenide glass clad fibers and their transmission loss characteristics are reported. It is found that appropriate glass compositions for drawing low-loss fibers are limited to the narrow ranges in the glass-forming regions. The minimum losses obtained are 35 dB/km at 2.44μm for As 40 S 60 unclad fiber, 182 dB/km at 2.12 μm for As 38 Ge 5 Se 57 unclad fiber, and 148 dB/km at 1.68 μm for Ge 20 S 80 unclad fiber. It is shown that hydrogen impurity absorptions and short-wavelength weak absorption tails seriously enhance loss in the fibers. It is also suggested that ultralow loss cannot be achieved due to the existence of the weak absorption tail. However, it is expected that the chalcogenide glass fibers can be used in short fiber-length applications such as in the remote monitoring and delivery of CO laser radiation. This is due to their wide operating wavelength ranges of 0.9-6\mu m for As-S, 1.3-9\mu m for As-Ge-Se, and 0.8-5\mu m for Ge-S, in which losses can be reduced to below 1 dB/m.
ISSN:0733-8724
1558-2213
DOI:10.1109/JLT.1984.1073657