Enhancing the Resolution Limits of Spectral Interferometric Measurements with Swept-Wavelength Interrogation by Means of a Reference Interferometer
Nikolai Ushakov, Alexandr Markvart, Leonid Liokumovich

TL;DR
This paper introduces a method to improve the resolution of spectral interferometric measurements by using a reference interferometer to compensate for interrogator noise, demonstrated with extrinsic Fabry-Perot interferometers.
Contribution
The paper proposes a novel approach employing a reference interferometer to enhance spectral interferometry resolution, validated through theoretical analysis and experiments.
Findings
Achieved a three-fold resolution improvement with similar interferometers.
Demonstrated a two-fold resolution enhancement with different OPD differences.
Applicable to sensors with large OPDs for remote inspection.
Abstract
An approach for compensating the influence of the interrogator noises on the readings of interferometric sensors, interrogated by means of spectral interferometry with wavelength tuning is proposed. Both theoretical analysis and a proof-of-principle experiment were performed for the example of extrinsic Fabry-Perot interferometers (EFPI). Two schemes, comprising of a signal and a reference interferometers, switched in different optical channels of the interrogating unit, were proposed. The approach is based on the fact that the fluctuations of some of the interrogator parameters produce correlated fluctuations of the reference and signal interferometers optical path differences (OPD) measured values. The fluctuations of the reference interferometers measured OPD can be subtracted from the measured OPD of the signal interferometer. The fluctuations of different parameters of the…
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