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Lipka T, Moldenhauer L, Müller J, et al. Athermal and wavelength-trimmable photonic filters based on TiO₂-cladded amorphous-SOI. Opt Express. 2015;23(15):20075-88doi: 10.1364/OE.23.020075.
Lipka, T., Moldenhauer, L., Müller, J., & Trieu, H. K. (2015). Athermal and wavelength-trimmable photonic filters based on TiO₂-cladded amorphous-SOI. Optics express, 23(15), 20075-88. https://doi.org/10.1364/OE.23.020075
Lipka, Timo, et al. "Athermal and wavelength-trimmable photonic filters based on TiO₂-cladded amorphous-SOI." Optics express vol. 23,15 (2015): 20075-88. doi: https://doi.org/10.1364/OE.23.020075
Lipka T, Moldenhauer L, Müller J, Trieu HK. Athermal and wavelength-trimmable photonic filters based on TiO₂-cladded amorphous-SOI. Opt Express. 2015 Jul 27;23(15):20075-88. doi: 10.1364/OE.23.020075. PMID: 26367665.
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Opt Express. 2015 Jul 27;23(15):20075-88. doi: 10.1364/OE.23.020075.

Athermal and wavelength-trimmable photonic filters based on TiO₂-cladded amorphous-SOI.

Optics express

Timo Lipka, Lennart Moldenhauer, Jörg Müller, Hoc Khiem Trieu

PMID: 26367665 DOI: 10.1364/OE.23.020075

Abstract

Large-scale integrated silicon photonic circuits suffer from two inevitable issues that boost the overall power consumption. First, fabrication imperfections even on sub-nm scale result in spectral device non-uniformity that require fine-tuning during device operation. Second, the photonic devices need to be actively corrected to compensate thermal drifts. As a result significant amount of power is wasted if no athermal and wavelength-trimmable solutions are utilized. Consequently, in order to minimize the total power requirement of photonic circuits in a passive way, trimming methods are required to correct the device inhomogeneities from manufacturing and athermal solutions are essential to oppose temperature fluctuations of the passive/active components during run-time. We present an approach to fabricate CMOS backend-compatible and athermal passive photonic filters that can be corrected for fabrication inhomogeneities by UV-trimming based on low-loss amorphous-SOI waveguides with TiO2 cladding. The trimming of highly confined 10 μm ring resonators is proven over a free spectral range retaining athermal operation. The athermal functionality of 2nd-order 5 μm add/drop microrings is demonstrated over 40°C covering a broad wavelength interval of 60 nm.

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