Design and Simulation Study of an Optical Mode-Localized MEMS Accelerometer

Overview

Journal Micromachines (Basel)

Publisher MDPI

Date 2023 Jan 21

PMID 36677100

Authors

Yu Feng

Wuhao Yang

Xudong Zou

Affiliations

Soon will be listed here.

Abstract

In this paper, we demonstrate a novel photonic integrated accelerometer based on the optical mode localization sensing mechanism, which is designed on an SOI wafer with a device layer thickness of 220 nm. High sensitivity and large measurement range can be achieved by integrating coupled ring resonators with a suspended directional coupler on a proof mass. With the help of FEA simulation and numerical analysis, the proposed optical mode-localized sensor presents a sensitivity of 10/g (modal power ratio/acceleration) and an inertial displacement of from -8 to 10 microns corresponding to a range from -23.5 to 29.4 g. The free spectral range is 4.05 nm around 1.55 microns. The acceleration resolution limited by thermomechanical noise is 4.874 μg. The comprehensive performance of this design is competitive with existing MEMS mode localized accelerometers. It demonstrates the potential of the optical mode-localized inertial sensors as candidates for state-of-the-art sensors in the future.

Citing Articles

Micro-Opto-Electro-Mechanical Systems for High-Precision Displacement Sensing: A Review.

Xin C, Xu Y, Zhang Z, Li M Micromachines (Basel). 2024; 15(8).

PMID: 39203662 PMC: 11356231. DOI: 10.3390/mi15081011.

The Design, Modeling and Experimental Investigation of a Micro-G Microoptoelectromechanical Accelerometer with an Optical Tunneling Measuring Transducer.

Barbin E, Nesterenko T, Koleda A, Shesterikov E, Kulinich I, Kokolov A Sensors (Basel). 2024; 24(3).

PMID: 38339482 PMC: 10856817. DOI: 10.3390/s24030765.

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