CMOS-compatible thermal compensator based on a modified Mach-Zender-Interferometer

Qifeng Long; Huaxiang Yi; Xingjun Wang; Zhiping Zhou; Zhiping Zhou

doi:10.1364/ACP.2011.83081L

Optoelectronic Materials and Devices
Proceedings of SPIE (Optica Publishing Group, 2011),
paper 83081L
•https://doi.org/10.1364/ACP.2011.83081L

CMOS-compatible thermal compensator based on a modified Mach-Zender-Interferometer

Qifeng Long, Huaxiang Yi, Xingjun Wang, and Zhiping Zhou

Asia Communications and Photonics Conference and Exhibition 2011

Shanghai China
13–16 November 2011
ISBN: 978-0-8194-8956-2

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Silicon Photonics I (SPI)

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Q. Long, H. Yi, X. Wang, and Z. Zhou, "CMOS-compatible thermal compensator based on a modified Mach-Zender-Interferometer," in Optoelectronic Materials and Devices, G. Duan, ed., Vol. 8308 of Proceedings of SPIE (Optica Publishing Group, 2011), paper 83081L.

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Abstract

A novel CMOS-compatible thermal compensator which can compensate most of silicon photonic integrated devices with the positive thermal-optical effect was demonstrated using a modified asymmetric Mach-Zender-Interferometer. Furthermore, an athermal waveguide was designed using the demonstrated thermal compensator to compensate the conventional waveguide with the positive thermal-optical effect. Based on simulations, the temperature dependence of the athermal compensated waveguide is stable within the temperature range of 25-52℃, and the temperature range can be largely extended through optimizing the structure of the thermal compensator. In addition, the different length of conventional waveguide can be compensated by adjusting some parameters.

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