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SOI-Based Multi-Channel AWG with Fiber Bragg Grating Sensing Interrogation System

Siming Weng, Pei Yuan, Wei Zhuang, Dongliang Zhang, Fei Luo, Lianqing Zhu

2021Photonics32 citationsDOIOpen Access PDF

Abstract

For the development of minimized and high-rate photonic-integrated fiber Bragg grating interrogation (FBGI) systems, arrayed waveguide grating (AWG) has been widely used as one of the critical components. In this paper, we present an 8-channel SOI-based AWG for a photonic integrated FBG interrogation microsystem. The channel spacing of the AWG is designed to be 3 nm to meet a high-dynamic-range demodulation requirement. The core size of the fabricated AWG is about 335 × 335 μm2. The simulation results and experimental results are in high agreement, showing that AWG has a fine transmission spectrum with crosstalk below −16 dB, nonuniformity below 0.4 dB, insertion loss below −6.35 dB, 3 dB bandwidth about 1.3 nm and 10 dB bandwidth of 2.3 nm. The proposed AWG can be applied perfectly to the SOI-based AWG demodulation microsystem, exhibiting a large dynamic range of 1.2 nm, the resolution for measurements is 1.27 pm and a high accuracy of 20.6 pm.

Topics & Concepts

Arrayed waveguide gratingMaterials scienceFiber Bragg gratingOpticsDynamic rangeMicrosystemSilicon on insulatorBandwidth (computing)Channel spacingDemodulationOptoelectronicsChannel (broadcasting)Wavelength-division multiplexingPhysicsTelecommunicationsComputer scienceSiliconNanotechnologyWavelengthAdvanced Fiber Optic SensorsPhotonic and Optical DevicesAdvanced Fiber Laser Technologies
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