玻璃光子晶体:制造、光学性质及应用

E. Becker, E. Romanova, L. Melnikov, Y. Sinichkin, V. Sorokin, I.V. Elterman, N. Skibina, V. Beloglazov, A. Sherbakov, V. V. Baturin, T. Benson, P. Sewell
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引用次数: 2

摘要

光子晶体包层光纤是一种新型的光波导,其独特的性能在解决现代光学中许多紧迫问题的可能性方面引起了人们的特别关注。这种光纤的包层具有二维光子晶体的结构。它由紧密排列的中空玻璃纤维的二维周期性或随机阵列组成。如果使用不带孔的光纤来制作这种结构的核心,那么缺失的孔可以认为是二维光子晶格中的缺陷。这些光子晶体光纤-多孔光纤-支持单模传播体制在宽的光谱范围内,允许辐射能量损失在单模体制大大减少和波导模式的有效面积大大增加。多孔光纤的这些特性似乎对提高非线性光相互作用的效率、脉冲压缩和创造新的高效宽带辐射源具有很大的希望。本文重点介绍了几种新的玻璃光子晶体结构:它们的制备技术、光学性质的实验研究和模型研究。
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Glass photonic crystals: fabrication, optical properties and applications
Fibers with a photonic crystal cladding are a new type of optical waveguide whose unique properties are of special interest in the context of the possibility of solving many urgent problems of modern optics. The cladding in the fibers of this type has the structure of a two-dimensional photonic crystal. It consists of a 2D periodic or random array of closely packed hollow glass fibers. If a fiber without a hole is used to make the core of such a structure, then the missing hole can be considered as a defect in 2D photonic crystal lattice. These photonic crystal fibers - holey fibers - support single mode propagation regime within a broad spectral range, allowing radiation energy losses to be considerably reduced in the single mode regime and the effective area of the waveguide mode to be substantially increased. These properties of holey fibers seem to hold much promise for enhancing the efficiency of nonlinear-optical interactions, pulse compression and creation of new efficient broadband radiation sources. In this paper we focus in several new proposed glass photonic crystal structures: technology of their fabrication, investigation of their optical properties using experiments and modeling.
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