Semi-empirical estimation of the attenuation loss for amorphous ZBLAN glass

被引:0
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作者
Teng-Cheong Ong
Theodore A. Steinberg
Esa Jaatinen
John Bell
机构
[1] Queensland University of Technology,Department of Energy and Process Engineering
[2] Queensland University of Technology,Department of Nanotechnology and Molecular Science
[3] Queensland University of Technology,Department of Chemistry, Physics and Mechanical Engineering
来源
Optical and Quantum Electronics | 2019年 / 51卷
关键词
Fiber optics; Optical communications; ZBLAN; Nonlinear optics; Fibers; Transmission; Ellipsometry and polarimetry;
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学科分类号
摘要
ZBLAN glass tends to undergo heavy devitrification, forming crystallites that act as scattering centers and results in a large attenuation loss. In this study, attenuation loss values were obtained for ZBLAN glass test samples that were melted and then cooled rapidly at a rate of 4000 °C/min, which yielded amorphous samples that were free of micro/nano-crystalline inclusions. Using an approach by Forouhi and Bloomer, which incorporates Kramers–Kronig relations, in conjunction with measured optical data using ellipsometry, an attenuation loss of 0.092 dB/Km at 1800 nm wavelength was estimated for amorphous ZBLAN test samples.
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