Broadband Temperature-insensitivity of Dispersion-engineered Waveguides and Resonators

机译：色散工程波导和谐振器的宽带温度不敏感性

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Photonic circuits suffer from thermal drift of device performance, which is a key obstacle to the development of commercial optoelectronic products. Temperature-insensitive integrated waveguides and resonators have been demonstrated by using materials with a negative TOC at a single wavelength, which are not suitable for WDM devices and wideband nonlinear devices. Here, we propose a waveguide structure with temperature-insensitivity over a bandwidth of 780 nm (1280 to 2060 nm) with an ultra-small effective TOC within ±1×10~(-6)/K. Uniquely, the waveguide has small anomalous dispersion (from 66 to 329 psm/km) over the same band and is suitable for frequency comb generation without being affected by intra-cavity thermal dynamics.

机译：光子电路遭受器件性能的热漂移，这是商用光电产品发展的主要障碍。对温度不敏感的集成波导和谐振器已通过使用在单个波长处具有负TOC的材料得到了证明，该材料不适用于WDM器件和宽带非线性器件。在这里，我们提出了一种波导结构，该结构在780 nm（1280至2060 nm）的带宽上具有温度不敏感度，并且具有在±1×10〜（-6）/ K之内的超小有效TOC。独特的是，该波导在相同频带上的反常色散很小（从66到329 ps / nm / km），并且适合于频率梳的产生，而不受腔内热动力学的影响。

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来源
《Nonlinear Frequency Generation and Conversion: Materials and Devices XVII》|2018年|105161G.1-105161G.6|共6页
会议地点 San Francisco(US)
作者
Lijuan Xu; Liuqing He; Yuhao Guo; Guifang Li; Lin Zhang;
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作者单位

Key Laboratory of Opto-electronic Information Technical Science of Ministry of Education, School of Precision Instruments and Opto-electronics Engineering, Tianjin University, Tianjin 300072,China,Key Laboratory of Integrated Opto-electronic Technologies and Devices in Tianjin, School of Precision Instruments and Opto-electronics Engineering, Tianjin University, Tianjin 300072, China,Tianjin University of Technology and Education, School of Electronic Engineering, No. 1310, Dagu South Road, Hexi District, Tianjin 300222, China;

Key Laboratory of Opto-electronic Information Technical Science of Ministry of Education, School of Precision Instruments and Opto-electronics Engineering, Tianjin University, Tianjin 300072,China,Key Laboratory of Integrated Opto-electronic Technologies and Devices in Tianjin, School of Precision Instruments and Opto-electronics Engineering, Tianjin University, Tianjin 300072, China;

Key Laboratory of Opto-electronic Information Technical Science of Ministry of Education, School of Precision Instruments and Opto-electronics Engineering, Tianjin University, Tianjin 300072,China,Key Laboratory of Integrated Opto-electronic Technologies and Devices in Tianjin, School of Precision Instruments and Opto-electronics Engineering, Tianjin University, Tianjin 300072, China;

Key Laboratory of Opto-electronic Information Technical Science of Ministry of Education, School of Precision Instruments and Opto-electronics Engineering, Tianjin University, Tianjin 300072,China,Key Laboratory of Integrated Opto-electronic Technologies and Devices in Tianjin, School of Precision Instruments and Opto-electronics Engineering, Tianjin University, Tianjin 300072, China,College of Optics and Photonics, CREOL and FPCE, University of Central Florida, Orlando, FL 32816. USA;

Key Laboratory of Opto-electronic Information Technical Science of Ministry of Education, School of Precision Instruments and Opto-electronics Engineering, Tianjin University, Tianjin 300072,China,Key Laboratory of Integrated Opto-electronic Technologies and Devices in Tianjin, School of Precision Instruments and Opto-electronics Engineering, Tianjin University, Tianjin 300072, China;

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原文格式 PDF
正文语种 eng
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关键词
Dispersion; athermal; temperature insensitive; microresonator;

机译：分散;无热温度不敏感；微谐振器;

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2. Study of low-peak-power highly coherent broadband supercontinuum generation through a dispersion-engineered Si-rich silicon nitride waveguide [J] . Applied optics . 2020,第20期

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3. Design of a dispersion-engineered broadband Ge11.5As24Se64.5-Si3N4 strip-slot hybrid waveguide with giant and flat dispersion over 350 nm for on-chip photonic networks [J] . Hui Zhanqiang, Yang Min, Zhang Meizhi, Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter . 2019,第期

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4. Broadband Temperature-insensitivity of Dispersion-engineered Waveguides and Resonators [C] . Lijuan Xu, Liuqing He, Yuhao Guo, SPIE Conference on Nonlinear Frequency Generation and Conversion: Materials and Devices . 2018

机译：分散工程波导和谐振器的宽带温度不敏感
5. Pulse Formation and Frequency Conversion in Dispersion-Engineered Nonlinear Waveguides and Resonators [D] . Jankowski, Marc. 2020

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6. Hyperbolic-cosine waveguide tapers and oversize rectangular waveguide for reduced broadband insertion loss in W-band electron paramagnetic resonance spectroscopy. II. Broadband characterization [O] . Jason W. Sidabras, Robert A. Strangeway, Richard R. Mett, -1

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7. Study of low-peak-power highly coherent broadband supercontinuum generation through a dispersion-engineered Si-rich silicon nitride waveguide [O] . M. R. Karim, Nayem Al Kayed, Md Rabiul Hossain, 2020

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8. Modulators Incorporating Multi-layer Dispersion-Engineered Waveguides. [R] . Painter, O. J., Vernooy, D. W., Vahala, K. J. 2004

机译：包含多层色散工程波导的调制器。

Broadband Temperature-insensitivity of Dispersion-engineered Waveguides and Resonators

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