Dispersion engineering in soft glass photonic crystal fibers infiltrated with liquids

Optical Fibers and Their Applications Pub Date : 2015-12-17 DOI:10.1117/12.2229482

T. Stefaniuk, Hieu Le Van, J. Pniewski, V. Cao Long, Aleksandr Ramaniuk, Karol Grajewski, L. Chu van, M. Karpierz, M. Trippenbach, R. Buczyński

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Abstract

We present a numerical study of the dispersion characteristic modification in a nonlinear photonic crystal fibre (PCF) infiltrated with organic solvents. The PCF is made of PBG08 glass and was developed in the stack-and-draw process. The PBG08 glass has a high refractive index (n < 2.0), high nonlinear refractive index (n2 = 4.3×10−19 m2/W) and good rheological properties that allow for thermal processing of the glass without crystallization. In the numerical study 18 different solvents were used. The dispersion, mode area, and losses characteristics were calculated. The zero dispersion wavelength (ZDW) of the fibre can be shifted towards longer wavelengths by approx. 150 nm by using Nitrobenzene as infiltrating liquid and by a smaller value using other liquids. At the same time the mode area of the fundamental mode increases by approx. 5 to 15% depending on the wavelength considered. The confinement losses increase significantly for six analysed liquids by a few orders of magnitude up to 102 dB/m. Our approach allows to combine high nonlinearities of the soft glass with the possibility to tune zero dispersion wavelength to the desired value.

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液体渗透软玻璃光子晶体光纤中的色散工程

本文用数值方法研究了有机溶剂对非线性光子晶体光纤色散特性的影响。PCF以PBG08玻璃为原料，采用堆焊工艺研制而成。PBG08玻璃具有高折射率(n < 2.0)、高非线性折射率(n2 = 4.3×10−19 m2/W)和良好的流变性能，可在不结晶的情况下进行热加工。在数值研究中，使用了18种不同的溶剂。计算了色散、模面积和损耗特性。光纤的零色散波长(ZDW)可以向更长的波长移动大约。以硝基苯为渗透液，150nm，以其他液体较小。同时，基模的模态面积增加了约。5%到15%取决于所考虑的波长。对于六种分析液体，约束损耗显著增加几个数量级，达到102 dB/m。我们的方法允许将软玻璃的高非线性与将零色散波长调谐到所需值的可能性相结合。

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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Optical Fibers and Their Applications

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