Mini LiNbO3 multi-function integrated optical device

Yong Hua; Jianmin Cui; Yu'nan Sun

doi:10.3788/HPLPB20102211.2737

Mini LiNbO₃ multi-function integrated optical device

Yong Hua^*, Jianmin Cui, Yu'nan Sun

^*此作品的通讯作者

光电学院

科研成果: 期刊稿件 › 文章 › 同行评审

3 引用（Scopus）

摘要

In order to meet the demand of mini fiber optical gyro for pint-sized devices, the structure of a mini LiNbO₃ multi-function integrated optical device (MIOD) is analyzed and optimized. The loss induced by the curvature of S-bend waveguide and the refractive index difference between waveguide and substrate are simulated by beam propagation method software. The bend loss of S-bend waveguide is decreased by adjusting the parameters of annealed proton exchange. Compared with conventional design, longer bend transition section occupying smaller area is realized by replacing the straight output waveguide with S-bend waveguide directly. The chip length is decreased from 20.0 to 12.5 mm, and the package length is 20.0 mm, which is 2/3 of conventional devices. The typical insertion loss of the mini MIOD is less than 2.5 dB and the loss change from -55 to 85°C is less than 0.2 dB.

源语言	英语
页（从-至）	2737-2740
页数	4
期刊	Qiangjiguang Yu Lizishu/High Power Laser and Particle Beams
卷	22
期	11
DOI	https://doi.org/10.3788/HPLPB20102211.2737
出版状态	已出版 - 11月 2010

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10.3788/HPLPB20102211.2737

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Hua, Y., Cui, J., & Sun, Y. (2010). Mini LiNbO₃ multi-function integrated optical device. Qiangjiguang Yu Lizishu/High Power Laser and Particle Beams, 22(11), 2737-2740. https://doi.org/10.3788/HPLPB20102211.2737

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title = "Mini LiNbO3 multi-function integrated optical device",

abstract = "In order to meet the demand of mini fiber optical gyro for pint-sized devices, the structure of a mini LiNbO3 multi-function integrated optical device (MIOD) is analyzed and optimized. The loss induced by the curvature of S-bend waveguide and the refractive index difference between waveguide and substrate are simulated by beam propagation method software. The bend loss of S-bend waveguide is decreased by adjusting the parameters of annealed proton exchange. Compared with conventional design, longer bend transition section occupying smaller area is realized by replacing the straight output waveguide with S-bend waveguide directly. The chip length is decreased from 20.0 to 12.5 mm, and the package length is 20.0 mm, which is 2/3 of conventional devices. The typical insertion loss of the mini MIOD is less than 2.5 dB and the loss change from -55 to 85°C is less than 0.2 dB.",

keywords = "Fiber optical gyro, Integrated optics, LiNbO, Modulator, Waveguide",

author = "Yong Hua and Jianmin Cui and Yu'nan Sun",

year = "2010",

month = nov,

doi = "10.3788/HPLPB20102211.2737",

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AU - Hua, Yong

AU - Cui, Jianmin

AU - Sun, Yu'nan

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N2 - In order to meet the demand of mini fiber optical gyro for pint-sized devices, the structure of a mini LiNbO3 multi-function integrated optical device (MIOD) is analyzed and optimized. The loss induced by the curvature of S-bend waveguide and the refractive index difference between waveguide and substrate are simulated by beam propagation method software. The bend loss of S-bend waveguide is decreased by adjusting the parameters of annealed proton exchange. Compared with conventional design, longer bend transition section occupying smaller area is realized by replacing the straight output waveguide with S-bend waveguide directly. The chip length is decreased from 20.0 to 12.5 mm, and the package length is 20.0 mm, which is 2/3 of conventional devices. The typical insertion loss of the mini MIOD is less than 2.5 dB and the loss change from -55 to 85°C is less than 0.2 dB.

AB - In order to meet the demand of mini fiber optical gyro for pint-sized devices, the structure of a mini LiNbO3 multi-function integrated optical device (MIOD) is analyzed and optimized. The loss induced by the curvature of S-bend waveguide and the refractive index difference between waveguide and substrate are simulated by beam propagation method software. The bend loss of S-bend waveguide is decreased by adjusting the parameters of annealed proton exchange. Compared with conventional design, longer bend transition section occupying smaller area is realized by replacing the straight output waveguide with S-bend waveguide directly. The chip length is decreased from 20.0 to 12.5 mm, and the package length is 20.0 mm, which is 2/3 of conventional devices. The typical insertion loss of the mini MIOD is less than 2.5 dB and the loss change from -55 to 85°C is less than 0.2 dB.

KW - Fiber optical gyro

KW - Integrated optics

KW - LiNbO

KW - Modulator

KW - Waveguide

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Mini LiNbO3 multi-function integrated optical device

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Mini LiNbO₃ multi-function integrated optical device