Multiplexed Extrinsic Fiber Fabry-Perot Interferometric Sensors: Resolution Limits
Nikolai Ushakov, Leonid Liokumovich

TL;DR
This paper investigates the resolution limits of multiplexed extrinsic fiber Fabry-Perot interferometric sensors, providing analytical models, experimental validation, and optimization strategies for serial and parallel configurations.
Contribution
It introduces a comprehensive analytical model for resolution limits, experimentally demonstrates superior multiplexing resolution, and offers optimization recommendations for EFPI sensors.
Findings
Achieved resolution standard deviations between 30 and 80 pm, surpassing previous reports.
Validated analytical models with experimental data showing good agreement.
Identified and addressed sensor cross-talk issues with proposed solutions.
Abstract
Resolution investigation of multiplexed displacement sensors based on extrinsic fiber Fabry-Perot interferometers (EFPI) was carried out. The cases of serial and parallel configurations were considered, the analysis of the problems and the advantages of the both was performed. An analytical model, describing the resolution limits for the both configurations was developed. Serial and parallel multiplexing schemes have been experimentally implemented with 3 and 4 sensing elements, respectively. For the both configurations the achieved optical path difference (OPD) standard deviations were between 30 and 80 pm, which is, to the best of our knowledge, more than an order better than any other multiplexed EFPI resolution ever reported. A good correspondence between experimental results and analytical predictions was demonstrated. A mathematical apparatus, relating the attained sensors…
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