Chemical Structure and Concentration Dependence of the Diffusion Coefficient in Silver/Sodium Ion-Exchanged Aluminosilicate Glasses

Gradient Index Optical Systems Pub Date : 1900-01-01 DOI:10.1364/giois.1994.gtue2

J. M. Inman, S. Houde-Walter, B. McIntyre

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Abstract

Ion exchange is often used to alter the index of refraction of a glass to fabricate waveguide and micro-optics devices, usually resulting in a gradient index. However, in order to efficiently design such devices it is necessary to be able to accurately predict and control the ion exchange. One important complication that must be accounted for is the Mixed Mobile Ion Effect (MMIE), also known as the Mixed Alkali Effect, in which many of the glass properties vary from additivity when two species of monovalent cations are present. This effect, although extensively documented, is poorly understood. As a result, parameters and conditions for ion exchanges are usually determined through a tedious trial-and-error process. We have found that insight into ion-exchange processes, including the MMIE, can be gained from studies of glass structure. We have studied silver-for-sodium exchange in a series of aluminosilicate glasses, commercially important for ion-exchanged waveguides. In this work we relate the results of our previous structural studies to MMIE and the concentration dependence of the diffusion coefficient.

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银/钠离子交换铝硅酸盐玻璃中扩散系数的化学结构及浓度依赖性

离子交换通常用于改变玻璃的折射率，以制造波导和微光学器件，通常会产生梯度折射率。然而，为了有效地设计这种装置，必须能够准确地预测和控制离子交换。必须考虑的一个重要的复杂因素是混合移动离子效应(MMIE)，也称为混合碱效应，当两种一价阳离子存在时，玻璃的许多性质会因可加性而变化。尽管有大量文献记载，但人们对这种影响知之甚少。因此，离子交换的参数和条件通常是通过繁琐的试错过程来确定的。我们发现，对离子交换过程的深入了解，包括MMIE，可以从玻璃结构的研究中获得。我们研究了一系列铝硅酸盐玻璃中银对钠的交换，这对离子交换波导具有重要的商业意义。在这项工作中，我们将我们以前的结构研究结果与MMIE和扩散系数的浓度依赖性联系起来。

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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Gradient Index Optical Systems

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