Horizontal Directional Coupler Formed With Waveguides of Different Heights for Mode-Division Multiplexing

Horizontal Directional Coupler Formed With Waveguides of Different Heights for Mode-Division Multiplexing

We propose a horizontal directional coupler formed with two parallel waveguides of different heights. By breaking the symmetry in both the horizontal and the vertical direction, this directional coupler can be designed to allow us coupling between any two spatial modes of a few-mode waveguide, regar...

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Bibliographic Details
Main Authors: Wei Ke Zhao, Kai Xin Chen, Jie Yun Wu, Kin Seng Chiang
Format: Article
Language:English
Published: IEEE 2017-01-01
Series:IEEE Photonics Journal
Subjects:
Directional coupler
integrated optics
mode multiplexer
multiplexing
optical waveguide
polymer waveguide.
Online Access:https://ieeexplore.ieee.org/document/7990120/
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Summary:We propose a horizontal directional coupler formed with two parallel waveguides of different heights. By breaking the symmetry in both the horizontal and the vertical direction, this directional coupler can be designed to allow us coupling between any two spatial modes of a few-mode waveguide, regardless of their symmetry properties, whereas a conventional directional coupler formed with planar waveguides of equal heights only allows us coupling between two spatial modes of the same symmetry in the vertical direction. As an example, we design and fabricate such a directional coupler with polymer material for the (de)multiplexing of the LP<sub>01</sub> and the LP<sub>11b</sub> mode, which have a symmetric and an antisymmetric field distribution in the vertical direction, respectively. Our typical fabricated device shows a coupling ratio higher than 95&#x0025; in the wavelength range from 1530 to 1560&#x00A0;nm. The insertion losses for the LP<sub>01</sub> and LP<sub>11b</sub> modes are 9.6 and 12.8&#x00A0;dB, respectively. The performance of the device is weakly sensitive to temperature variations. The proposed directional coupler is easy to fabricate and can be used as a basic structure for the implementation of mode-controlling devices for mode-division-multiplexing applications.
ISSN:1943-0655

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