Tb-doped X–B–Al (X = Li/Na/K/Sb) magneto-optical glass: Performance optimization and information encryption applications

IF 3.5 3区材料科学 Q1 MATERIALS SCIENCE, CERAMICS

Journal of the American Ceramic Society Pub Date : 2025-02-04 DOI:10.1111/jace.20412

Jin Wang, Xudong Zhao, Dong Wu, Ping Lu, Xiujian Zhao, Yinsheng Xu

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引用次数: 0

Abstract

Magneto-optical (MO) glass, which has been garnering increasing interest for its light rotation capability, often faces challenges related to valence variations, resulting in suboptimal MO performance. The composition of the glass matrix and the specifics of the melting process are crucial in determining the glass network structure and cation valence state distribution. This has led to the exploration to enhance network connectivity and introduce more Tb³⁺ ions to boost the MO performance. In this study, alkali metal oxides (Li₂O/Na₂O/K₂O) were introduced to modify the glass network structure and lower melting characteristics accordingly. Particularly noteworthy is the advantage offered by K₂O that lowers free electron density and melting temperature. Through meticulous control of the alkali metal oxide content and the melting temperature, a groundbreaking Verdet constant of 113.87 rad/(T m) at 650 nm for the 40T5K glass was accomplished. Furthermore, the MO glasses have been successfully applied in the encryption and decryption of one-dimensional text and two-dimensional images, thereby exhibiting the utility of this innovative material in information security applications.

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磁光学（MO）玻璃因其光旋转能力而受到越来越多的关注，但它往往面临着与价态变化有关的挑战，从而导致 MO 性能不理想。玻璃基体的成分和熔化过程的具体细节对决定玻璃网络结构和阳离子价态分布至关重要。因此，人们开始探索如何增强网络的连通性并引入更多 Tb3+ 离子来提高 MO 性能。本研究引入了碱金属氧化物（Li2O/Na2O/K2O）来改变玻璃网络结构并相应降低熔化特性。特别值得一提的是，K2O 具有降低自由电子密度和熔化温度的优势。通过对碱金属氧化物含量和熔化温度的精心控制，40T5K 玻璃在 650 纳米波长下的 Verdet 常数达到了 113.87 rad/(T m) 的突破性水平。此外，MO 玻璃已成功应用于一维文本和二维图像的加密和解密，从而展示了这种创新材料在信息安全应用中的实用性。

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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来源期刊

Journal of the American Ceramic Society 工程技术-材料科学：硅酸盐

CiteScore

7.50

自引率

7.70%

发文量

590

审稿时长

2.1 months

期刊介绍： The Journal of the American Ceramic Society contains records of original research that provide insight into or describe the science of ceramic and glass materials and composites based on ceramics and glasses. These papers include reports on discovery, characterization, and analysis of new inorganic, non-metallic materials; synthesis methods; phase relationships; processing approaches; microstructure-property relationships; and functionalities. Of great interest are works that support understanding founded on fundamental principles using experimental, theoretical, or computational methods or combinations of those approaches. All the published papers must be of enduring value and relevant to the science of ceramics and glasses or composites based on those materials. Papers on fundamental ceramic and glass science are welcome including those in the following areas: Enabling materials for grand challenges[...] Materials design, selection, synthesis and processing methods[...] Characterization of compositions, structures, defects, and properties along with new methods [...] Mechanisms, Theory, Modeling, and Simulation[...] JACerS accepts submissions of full-length Articles reporting original research, in-depth Feature Articles, Reviews of the state-of-the-art with compelling analysis, and Rapid Communications which are short papers with sufficient novelty or impact to justify swift publication.