Authors:	T. Spuesens, S. Pathak, M. Vanslembrouck, P. Dumon, W. Bogaerts
Title:	Grating Coupler with Integrated Power Splitter for High-Intensity Optical Power Distribution
Format:	International Journal
Publication date:	2/2016
Journal/Conference/Book:	Photonics Technology Letters
Volume(Issue):	28(11) p.1173-1176
DOI:	10.1109/LPT.2016.2533666
Citations:	13 (Dimensions.ai - last update: 14/4/2024) 5 (OpenCitations - last update: 19/4/2024) Look up on Google Scholar
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Abstract

In this letter, we present a fiber grating coupler with an integrated 16-way power splitter. The incoming light from the fiber is split immediately over 16 channels, and therefore, the total optical power is never confined in a single waveguide. This is of particular interest for silicon photonics platforms, because, here, high optical intensities can cause significant non-linear losses. The device has a total coupling efficiency that is similar to standard focusing grating couplers. Furthermore, a channel non-uniformity below 1.1 dB has been obtained. By studying the alignment sensitivity, we found that for high splitting uniformity, a careful positioning of the fiber is necessary. We also experimentally demonstrate that this device is indeed capable of handling high optical powers without introducing additional non-linear losses.

Related Research Topics

• High efficiency fiber-to-waveguide grating coupler structures (2008-2015)

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• ICT: Plat4M (Photonic Libraries and Technologies for Manufacturing)