A review on 1D photonic crystal based reflective optical limiters

IF 8.1 2区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY
Reena Gadhwal, P. Kaushik, A. Devi
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引用次数: 10

Abstract

Abstract All-optical limiting devices are based on materials enabling light to control light, possessing a nonlinear optical response, and are reviving their popularity. One-dimensional photonic crystals (1 D PhC) are an auspicious platform for achieving novel optical limiters functioning for remarkably low limiting threshold and high damage threshold over a wider regime. 1 D PhC, a periodic nanostructure with a refractive index distribution along one direction, has been widely investigated by researchers. However, their utility to limit the high-intensity radiation to protect sophisticated optical sensors and devices is scarce in the research field. An overview of the numerically simulated, mathematically modeled, theoretically proposed, and experimentally realized 1 D PhC reflective optical limiters are provided here. This review focuses on the limited but noteworthy scrutiny of 1 D photonic crystal-based optical limiters using rare earth metals, nanocomposites, semiconductors, and phase-changing materials as defect layers. Highlights A reliable 1D PhC reflective optical limiter is resistant to laser induced damages. Limiter mechanism relies on creation of nonlinear localized modes. 1D PhC optical limiter reflects high power incident beams for a broader frequency window. Reflection based limiters are applicable for arbitrary direction of incidence.
基于一维光子晶体的反射光限幅器研究进展
摘要:全光限流器件是一种基于材料的光控制器件,具有非线性的光学响应,正重新受到人们的欢迎。一维光子晶体(1 D PhC)是实现新型光限制器的理想平台,在更宽的范围内具有非常低的限制阈值和高的损伤阈值。一维PhC是一种折射率沿一个方向分布的周期性纳米结构,受到了广泛的研究。然而,它们在限制高强度辐射以保护精密光学传感器和器件方面的应用研究却很少。本文概述了数值模拟、数学建模、理论提出和实验实现的一维PhC反射光限制器。本文综述了基于一维光子晶体的光学限制器,这些限制器使用稀土金属、纳米复合材料、半导体和相变材料作为缺陷层。一种可靠的1D PhC反射光限幅器,可抵抗激光引起的损伤。限制器机制依赖于非线性局部模态的创建。一维PhC光限制器反射高功率入射光束的频率窗口更宽。基于反射的限制器适用于任意入射方向。
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
CiteScore
22.10
自引率
2.80%
发文量
0
审稿时长
3 months
期刊介绍: Critical Reviews in Solid State and Materials Sciences covers a wide range of topics including solid state materials properties, processing, and applications. The journal provides insights into the latest developments and understandings in these areas, with an emphasis on new and emerging theoretical and experimental topics. It encompasses disciplines such as condensed matter physics, physical chemistry, materials science, and electrical, chemical, and mechanical engineering. Additionally, cross-disciplinary engineering and science specialties are included in the scope of the journal.
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