High-efficiency broadband grating out-coupler for thick silicon waveguides with a tuned SiGe layer

Sidra Tul Muntaha; Isaac Doughan; Matteo Cherchi; Matthieu Roussey; Timo Aalto

doi:10.1051/jeos/2025030

High-efficiency broadband grating out-coupler for thick silicon waveguides with a tuned SiGe layer

Sidra Tul Muntaha^*
, Isaac Doughan
, Matteo Cherchi
, Matthieu Roussey
, Timo Aalto

^*Corresponding author for this work

Research output: Contribution to journal › Article › Scientific › peer-review

Abstract

We design a novel grating out-coupler while maintaining a Gaussian-shaped far-field output. The approach is based on the patterning of a grating in a SiGe layer on the top surface of a 3-lm-thick Si waveguide. The grating aims at coupling the guided signal into a beam vertically out from the surface of the chip, i.e., outcoupling. The use of a high refractive index alloy, i.e., silicon-germanium, allows a tunability of the effective index of the guided mode and to modify the field distribution enabling a higher efficiency of the grating. It yields a theoretical efficiency of 75% at the central wavelength of 1583 nm. The overall length of this grating coupler is 500 lm, and the output light is detected at 1 lm above the grating. This type of long grating coupler is intended to be eventually used as sensor in LiDAR (Light detection and ranging) applications.

Original language	English
Article number	34
Journal	Journal of the European Optical Society-Rapid Publications
Volume	21
Issue number	2
DOIs	https://doi.org/10.1051/jeos/2025030
Publication status	Published - Jul 2025
MoE publication type	A1 Journal article-refereed

Keywords

Broad-band
Grating out-coupler
LiDAR applications
Long device
Silicon germanium

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10.1051/jeos/2025030Licence: CC BY

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title = "High-efficiency broadband grating out-coupler for thick silicon waveguides with a tuned SiGe layer",

abstract = "We design a novel grating out-coupler while maintaining a Gaussian-shaped far-field output. The approach is based on the patterning of a grating in a SiGe layer on the top surface of a 3-lm-thick Si waveguide. The grating aims at coupling the guided signal into a beam vertically out from the surface of the chip, i.e., outcoupling. The use of a high refractive index alloy, i.e., silicon-germanium, allows a tunability of the effective index of the guided mode and to modify the field distribution enabling a higher efficiency of the grating. It yields a theoretical efficiency of 75\% at the central wavelength of 1583 nm. The overall length of this grating coupler is 500 lm, and the output light is detected at 1 lm above the grating. This type of long grating coupler is intended to be eventually used as sensor in LiDAR (Light detection and ranging) applications.",

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T1 - High-efficiency broadband grating out-coupler for thick silicon waveguides with a tuned SiGe layer

AU - Muntaha, Sidra Tul

AU - Doughan, Isaac

AU - Cherchi, Matteo

AU - Roussey, Matthieu

AU - Aalto, Timo

N1 - Publisher Copyright: © The Author(s), published by EDP Sciences, 2025.

PY - 2025/7

Y1 - 2025/7

N2 - We design a novel grating out-coupler while maintaining a Gaussian-shaped far-field output. The approach is based on the patterning of a grating in a SiGe layer on the top surface of a 3-lm-thick Si waveguide. The grating aims at coupling the guided signal into a beam vertically out from the surface of the chip, i.e., outcoupling. The use of a high refractive index alloy, i.e., silicon-germanium, allows a tunability of the effective index of the guided mode and to modify the field distribution enabling a higher efficiency of the grating. It yields a theoretical efficiency of 75% at the central wavelength of 1583 nm. The overall length of this grating coupler is 500 lm, and the output light is detected at 1 lm above the grating. This type of long grating coupler is intended to be eventually used as sensor in LiDAR (Light detection and ranging) applications.

AB - We design a novel grating out-coupler while maintaining a Gaussian-shaped far-field output. The approach is based on the patterning of a grating in a SiGe layer on the top surface of a 3-lm-thick Si waveguide. The grating aims at coupling the guided signal into a beam vertically out from the surface of the chip, i.e., outcoupling. The use of a high refractive index alloy, i.e., silicon-germanium, allows a tunability of the effective index of the guided mode and to modify the field distribution enabling a higher efficiency of the grating. It yields a theoretical efficiency of 75% at the central wavelength of 1583 nm. The overall length of this grating coupler is 500 lm, and the output light is detected at 1 lm above the grating. This type of long grating coupler is intended to be eventually used as sensor in LiDAR (Light detection and ranging) applications.

KW - Broad-band

KW - Grating out-coupler

KW - LiDAR applications

KW - Long device

KW - Silicon germanium

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DO - 10.1051/jeos/2025030

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JF - Journal of the European Optical Society-Rapid Publications

IS - 2

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ER -

High-efficiency broadband grating out-coupler for thick silicon waveguides with a tuned SiGe layer

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Keywords

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