实现光子晶体的亚波长多层二元光栅设计

IF 1.1 Q4 QUANTUM SCIENCE & TECHNOLOGY Semiconductor Physics Quantum Electronics & Optoelectronics Pub Date : 1997-01-01 DOI:10.1364/qo.1997.qtha.4
R. Tyan, P. Sun, A. Salvekar, H. Chou, Chuan-cheng Cheng, F. Xu, A. Scherer, Y. Fainman
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引用次数: 3

摘要

亚波长多层二元光栅(SMBG)可以看作是一种二维周期结构(见图1a),具有沿光栅矢量和多层级联方向的两个周期方向。这种结构结合了亚波长光栅的强形式双折射1,2和由于多层结构而产生的高反射率,使我们能够设计偏振敏感的微器件,如偏振选择镜和偏振分束器。最近,我们介绍了一种基于SMBGs的新型偏振分束器(PBS)微器件设计。与传统的PBS设计相比,这种新颖的设计不仅增加了PBS微器件的角度和光谱范围,而且最重要的是,我们的微器件可以在正常入射光下工作,作为一个高效的偏振选择镜。具有这些特性的微器件对微激光设计至关重要。由于SMBG是一种二维周期结构,它也可以用于设计二维光子晶体。在本文中,我们总结了用于实现偏振敏感微器件的SMBG结构的设计、建模和表征,并介绍和讨论了基于SMBG的二维光子晶体设计。
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Subwavelength Multilayer Binary Grating Design for Implementing Photonic Crystals
Subwavelength multilayer binary gratings (SMBG) can be seen as a 2-D periodic structures (see Fig.1a) with two periodic directions along the grating vector and the multilayer cascading direction. Such structures combine strong form- birefringence1,2 of the subwavelength grating with high reflectivity due the multilayer structure allowing us to design polarization sensitive microdevices, such as polarization selective mirror and polarizing beam splitter. Recently3 we introduce a new polarizing beam splitter (PBS) microdevice design built of SMBGs. Not only this novel design increases the angular and spectral range of the PBS microdevice in comparison to conventional PBS designs, but most importantly, our microdevice can operate with normally incident light, acting as a high-efficiency polarization-selective mirror. Microdevice with such features are critical for microlaser designs. Since the SMBG is a 2-D periodic structure, it can also be used to design a 2-D photonic crystal. In this manuscript, we summarize the design, modeling, and characterization of the SMBG structure designed to implement polarization sensitive microdevice, and also introduce and discuss a 2-D photonic crystal design based on SMBG.
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来源期刊
CiteScore
1.80
自引率
22.20%
发文量
43
审稿时长
15 weeks
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