Float zone method for forming structured composites containing equidistant (Ge,Si)O2 fibers in a matrix of single crystal Cu(GeSi)O3

Metamaterials Pub Date : 2009-10-01 DOI:10.1016/j.metmat.2009.07.001

S. Ani-Joseph, B. Poumellec, M. Lancry, G. Dhalenne, R. Saint-Martin

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引用次数: 1

Abstract

Monocrystals of Cu(Ge,Si)O₃ with self-organized SiO₂–GeO₂ vitreous fibers running along the growth axis of the crystal, is a promising class of composites. This new material is achieved by floating zone technique using a ceramics with a composition located in a two-phase domain of the stability diagram of Cu(Ge,Si)O₃. We report our results on the relation between the various crystal growth parameters and the periodicity and the size of the fibers. We reached 1.2 and 0.6 μm respectively, and the refractive index contrast is around 0.35. These figures open the door towards telecom applications. These ones are important information for the realization of this composite from these oxides. After observation of the transverse section of this material, we report long fibers (≈750 μm) not published so far as second phase structure. After chemical analyses, we showed that physico-chemical conditions are met for the appearance of Turing like structures, explaining in such a way that the composite self-organizes during the solidification and turns into an ordered structure that can be useful as metamaterials or photonic crystal. This can help for suggesting other oxide systems and to define a general method for self-organization starting in the neighbourhood of an eutectic mixture.

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在单晶Cu(GeSi)O3基体上形成等距(Ge,Si)O2纤维结构复合材料的浮区法

单晶的Cu(Ge,Si)O3与自组织的SiO2-GeO2玻璃纤维沿晶体的生长轴运行，是一种很有前途的复合材料。这种新材料是通过浮区技术实现的，其成分位于Cu(Ge,Si)O3稳定性图的两相区域。我们报告了各种晶体生长参数与周期性和纤维尺寸之间关系的结果。分别达到1.2 μm和0.6 μm，折射率对比度在0.35左右。这些数字为电信应用打开了大门。这些是用这些氧化物实现这种复合材料的重要信息。通过对该材料横截面的观察，我们报道了长纤维(≈750 μm)的第二相结构。经过化学分析，我们证明了类图灵结构的出现符合物理化学条件，这解释了复合材料在凝固过程中自组织并变成有序结构的方式，可以用作超材料或光子晶体。这有助于提出其他氧化物体系，并确定一种从共晶混合物附近开始的自组织的一般方法。

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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Metamaterials

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