On-chip polarization splitter using total internal reflection mirrors on thick SOI platform

Shahwar Dura; Mikko Harjanne; Matteo Cherchi; Timo Aalto

doi:10.1364/OE.572244

On-chip polarization splitter using total internal reflection mirrors on thick SOI platform

Shahwar Dura^*
, Mikko Harjanne
, Matteo Cherchi
, Timo Aalto

^*Corresponding author for this work

Aalto University

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

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Abstract

Wavelength independent manipulation of the state of polarization is essential for realizing broadband photonic integrated circuits (PICs). We present here, for the first time, the use of compact total internal reflection (TIR) mirrors in silicon waveguides to achieve wavelength-independent (within the limits of material dispersion), polarization-dependent phase shifts, which are also tolerant to fabrication errors. A potential application area is polarization splitters operating on a broad wavelength range that has been the focus of our first proof-of-concept demonstration. Our devices achieved a 15 dB polarization extinction ratio for 80 nm bandwidth for TE and TM polarized light. These broadband polarization splitters, when combined with polarization rotators, can be used to develop all-silicon fully integrated isolators and circulators.

Original language	English
Pages (from-to)	46642-46654
Number of pages	13
Journal	Optics Express
Volume	33
Issue number	22
DOIs	https://doi.org/10.1364/OE.572244
Publication status	Published - 3 Nov 2025
MoE publication type	A1 Journal article-refereed

Funding

Funding. Research Council of Finland Project Novel (333980); Academy of Finland Flagship Programme, Photonics Research, and Innovation (PREIN) (346545).

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10.1364/OE.572244Licence: CC BY

OE.572244Final published version, 3.11 MBLicence: CC BY

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title = "On-chip polarization splitter using total internal reflection mirrors on thick SOI platform",

abstract = "Wavelength independent manipulation of the state of polarization is essential for realizing broadband photonic integrated circuits (PICs). We present here, for the first time, the use of compact total internal reflection (TIR) mirrors in silicon waveguides to achieve wavelength-independent (within the limits of material dispersion), polarization-dependent phase shifts, which are also tolerant to fabrication errors. A potential application area is polarization splitters operating on a broad wavelength range that has been the focus of our first proof-of-concept demonstration. Our devices achieved a 15 dB polarization extinction ratio for 80 nm bandwidth for TE and TM polarized light. These broadband polarization splitters, when combined with polarization rotators, can be used to develop all-silicon fully integrated isolators and circulators.",

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AU - Dura, Shahwar

AU - Harjanne, Mikko

AU - Cherchi, Matteo

AU - Aalto, Timo

PY - 2025/11/3

Y1 - 2025/11/3

N2 - Wavelength independent manipulation of the state of polarization is essential for realizing broadband photonic integrated circuits (PICs). We present here, for the first time, the use of compact total internal reflection (TIR) mirrors in silicon waveguides to achieve wavelength-independent (within the limits of material dispersion), polarization-dependent phase shifts, which are also tolerant to fabrication errors. A potential application area is polarization splitters operating on a broad wavelength range that has been the focus of our first proof-of-concept demonstration. Our devices achieved a 15 dB polarization extinction ratio for 80 nm bandwidth for TE and TM polarized light. These broadband polarization splitters, when combined with polarization rotators, can be used to develop all-silicon fully integrated isolators and circulators.

AB - Wavelength independent manipulation of the state of polarization is essential for realizing broadband photonic integrated circuits (PICs). We present here, for the first time, the use of compact total internal reflection (TIR) mirrors in silicon waveguides to achieve wavelength-independent (within the limits of material dispersion), polarization-dependent phase shifts, which are also tolerant to fabrication errors. A potential application area is polarization splitters operating on a broad wavelength range that has been the focus of our first proof-of-concept demonstration. Our devices achieved a 15 dB polarization extinction ratio for 80 nm bandwidth for TE and TM polarized light. These broadband polarization splitters, when combined with polarization rotators, can be used to develop all-silicon fully integrated isolators and circulators.

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EP - 46654

JO - Optics Express

JF - Optics Express

IS - 22

ER -

On-chip polarization splitter using total internal reflection mirrors on thick SOI platform

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