Helically bent structure of straight optical waveguide for flexible optical interconnection

2008 58th Electronic Components and Technology Conference Pub Date : 2008-05-27 DOI:10.1109/ECTC.2008.4550208

W. Lee, S. Hwang, J. Lim, B. Rho

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Abstract

We fabricated straight multimode optical waveguide films to analyze quantitatively the effectiveness of the helical bending. The optical waveguide films were very flexible and the refractive index difference between the core and the clad was 1.53% at a wavelength of 0.85 mum. This paper focuses on the helical bending losses under a proper index difference. Therefore, we measured first the bending losses with various bending radiuses and then the helical bending losses with various inclined angles and the radiuses, sequentially. As a result, we could improve the bending loss by 4 dB at 60deg- inclined angle and 1 mm radius, compared to a normal bending structure. In addition, we fabricated a flexible optical interconnection module linked with the flexible optical waveguide to investigate how the helical bending has an effect on data transmission. The optical interconnection module was composed of vertical cavity surface emitting laser, photodiode, and a 45deg-ended waveguide. The helical bending was applied to the waveguide of the optical interconnection module and data transmission characteristics with the inclined angles were measured.

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用于柔性光互连的直波导螺旋弯曲结构

我们制作了直多模光波导薄膜，定量分析了螺旋弯曲的有效性。在0.85 nm波长处，芯层与包层的折射率差为1.53%。本文研究了适当折射率差下的螺旋弯曲损失。因此，我们首先测量了不同弯曲半径下的弯曲损失，然后依次测量了不同倾角和半径下的螺旋弯曲损失。结果表明，与普通弯曲结构相比，在倾斜角度为60°、弯曲半径为1 mm时，弯曲损耗可提高4 dB。此外，我们制作了一个与柔性光波导连接的柔性光互连模块，以研究螺旋弯曲对数据传输的影响。光互连模块由垂直腔面发射激光器、光电二极管和45度端波导组成。对光互连模块的波导进行了螺旋弯曲，测量了倾斜角度对数据传输特性的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2008 58th Electronic Components and Technology Conference

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