SWG dispersion engineering for ultra-broadband photonic devices

机译：超宽带光子器件的SWG分散工程

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

In most integrated optics platforms device design is restricted to variations in the lateral dimensions, and a small set of etch depths. Sub-wavelength gratings (SWGs) in silicon-on-insulator enable engineering of refractive index in a wide range. SWGs exhibit a pitch smaller than the wavelength of light propagating through them, thereby suppressing diffraction and acting as a homogenous medium with an equivalent refractive index controlled by the duty-cycle. Here, we propose to not only engineer refractive index, but to control SWG dispersion. We use this concept to design ultra-broadband directional couplers (DCs) and multimode interference couplers (MMIs) with a fivefold bandwidth enhancement compared to conventional devices.

机译：在大多数集成光学平台中，设备设计仅限于横向尺寸的变化以及一小组蚀刻深度。绝缘体上的子波长光栅（SWG）能够在宽范围内实现折射率的工程。 SWGs表现出小于通过它们传播的光波长的间距，从而抑制衍射并用作由占空比控制的等效折射率的均匀介质。在这里，我们不仅提出工程师折射率，而是控制SWG分散。与传统设备相比，我们使用该概念设计超宽带定向耦合器（DCS）和多模接收器（MMIS），具有五倍带宽增强。

著录项

来源
《Conference on integrated photonics: Materials, devices, and applications II》|2013年||共7页
会议地点
作者
Robert Halir; Alejandro Maese-Novo; Sebastian Romero-Garcia; Diego Perez-Galacho; Luis Zavargo-Peche; Alejandro Ortega-Monux; Inigo Molina-Fernandez; J. Gonzalo Wangueemert- Perez; Pavel Cheben;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类光学;
关键词
Passive waveguide devices; silicon-on-insulator; sub-wavelength gratings; dispersion engineering; broadband devices; directional coupler; multi-mode interference coupler;

机译：无源波导器件;硅 - 绝缘体;亚波长光栅;分散工程;宽带设备;定向耦合器;多模干涉耦合器;

相似文献

外文文献
中文文献
专利

1. Ultra-broadband silicon photonics devices based on subwavelength metamaterials -INVITED [J] . A. V. Velasco, D. González-Andrade, A. Herrero-Bermello, EPJ Web of Conferences . 2020,第4期

机译：基于子波长超材料的超宽带硅光子电气元件 - invited
2. Polarization dispersion characteristics analysis of optical rib waveguides in organic/polymer photonic devices [J] . Liao Jinkun, Tang Xiongui, Gao Yuan, Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter . 2015,第Null期

机译：有机/聚合物光子器件中光肋波导的偏振色散特性分析
3. Dispersion-tailored few-mode fibers: a versatile platform for in-fiber photonic devices [J] . Ramachandran S. Journal of Lightwave Technology . 2005,第11期

机译：色散量身定制的多模光纤：光纤内光子设备的多功能平台
4. SWG dispersion engineering for ultra-broadband photonic devices [C] . Robert Halir, Alejandro Maese-Novo, Sebastian Romero-Garcia, Integrated photonics: Materials, devices, and applications II . 2013

机译：用于超宽带光子器件的SWG色散工程
5. Band gap and dispersion engineering of photonic crystal devices. [D] . Chen, Caihua. 2004

机译：光子晶体器件的带隙和色散工程。
6. Ultra-broadband Tunable Resonant Light Trapping in a Two-dimensional Randomly Microstructured Plasmonic-photonic Absorber [O] . Zhengqi Liu, Long Liu, Haiyang Lu, -1

机译：二维随机微结构等离子光子吸收器中的超宽带可调谐谐振光陷波
7. Dispersion engineering for multifunctional photonic crystal based nanophotonic devices at infrared wavelengths [O] . Hofman, M., Scherrer, G., KADIC, M., 2013

机译：基于多功能光子晶体的纳米光子器件在红外波长的色散工程
8. Engineering Photonic Devices and Materials Through Quantum Confinement and Electromagnetic Design [R] . Prather, D. 2010

机译：通过量子限制和电磁设计工程光子器件和材料

SWG dispersion engineering for ultra-broadband photonic devices

摘要

著录项

相似文献

相关主题

期刊订阅