Fundamentals of Glass Poling: From Self-Organization to Electric-Field Poling

Bragg Gratings, Photosensitivity, and Poling in Glass Fibers and Waveguides: Applications and Fundamentals Pub Date : 1997-10-01 DOI:10.1364/bgppf.1997.btuc.6

P. Kazansky, V. Pruneri

引用次数: 2

Abstract

One decade has passed since the discovery of self-organized (photoinduced quasi-phase-matched) second-harmonic generation (SHG) in optical fibers [1-2]. This discovery has attracted considerable interest world-wide [3-16] due to the unusually strong χ(2) (second-order susceptibility) gratings induced purely by optical fields in glass (10−15-10−16 m/V, which were 4-5 orders of magnitude higher than one could explain by known physical processes). In 1991 the value of χ(2) has been increased to a new level of 1 pm/V by thermal poling [26]. In this paper we discuss fundamentals of glass poling, trying to answer the question: What is the limit of a second-order nonlinearity in glass?

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玻璃极化基础:从自组织到电场极化

光纤中自组织(光致准相位匹配)二次谐波(SHG)的发现已经过去了十年[1-2]。这一发现在世界范围内引起了相当大的兴趣[3-16]，因为纯粹由玻璃中的光场(10−15-10−16 m/V，比已知物理过程所能解释的高4-5个数量级)引起的异常强的χ(2)(二阶磁化率)光栅。1991年，通过热极化将χ(2)的值提高到1 pm/V的新水平[26]。在本文中，我们讨论了玻璃极化的基本原理，试图回答这个问题:在玻璃中二阶非线性的极限是什么?

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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Bragg Gratings, Photosensitivity, and Poling in Glass Fibers and Waveguides: Applications and Fundamentals

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