Distributed opto-mechanical analysis of liquids outside standard fibers coated with polyimide
Hilel Hagai Diamandi, Yosef London, Gil Bashan, and Avi Zadok

TL;DR
This paper demonstrates the analysis and sensing of liquids outside standard polyimide-coated optical fibers using opto-mechanical stimulated Brillouin scattering, enabling practical distributed liquid sensing without removing the coating.
Contribution
It provides the first comprehensive model and experimental validation of opto-mechanical sensing in coated fibers immersed in liquids, including complex spectral analysis and long-distance measurements.
Findings
Spectra depend on coating diameter and acoustic mode.
Able to distinguish air, ethanol, and water outside coated fibers.
Achieved 100-meter spatial resolution in water and ethanol detection.
Abstract
The analysis of surrounding media has been a long-standing challenge of optical fiber sensors. Measurements are difficult due to the confinement of light to the inner core of standard fibers. Over the last two years, new sensor concepts have enabled the analysis of liquids outside the cladding boundary, where light does not reach. Sensing is based on opto-mechanical, forward stimulated Brillouin scattering interactions between guided light and sound waves. In most previous works, however, the protective polymer coating of the fiber had to be removed first. In this work, we report the opto-mechanical analysis of liquids outside commercially available, standard single-mode fibers with polyimide coating. The polyimide layer provides mechanical protection but can also transmit acoustic waves from the fiber cladding towards outside media. Comprehensive analysis of opto-mechanical coupling in…
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