A rigorous theoretical model of fluorescence-based fiber optic sensors: application to D-shaped fibers
Shaghayegh Baghapour, Wen Qi Zhang, Stephen C. Warren-Smith, Sally E. Plush, Shahraam Afshar V.

TL;DR
This paper presents a new theoretical model for fluorescence-based fiber optic sensors, showing how sensor design and excitation modes affect fluorescence output.
Contribution
A novel theoretical model for fluorescence-based sensors that accounts for multimodal excitation and emission, enabling accurate simulation of spatial interference effects.
Findings
Polishing the D-shaped fiber halfway through the core diameter enhances fluorescence output for fundamental mode excitation.
Smaller core fibers demonstrate stronger fluorescence output compared to larger core fibers.
Higher-order mode excitation produces greater fluorescence output, especially in larger core fibers.
Abstract
We develop a comprehensive theoretical model for fluorescence-based fiber optic sensors that accounts for multimodal excitation, incoherent emission from a homogeneously distributed ensemble of individually treated dipole emitters, and multimodal fluorescence capture. Unlike previous models based on bulk excitation and emission, our approach starts from single-dipole physics and extends to a continuous emitter distribution, enabling accurate modeling of spatial interference effects and fluorescence collection. Using this model, a fiber optics sensor, consisting of a D-shaped fiber sandwiched between an input and output fiber, is simulated to investigate the effects of core size, excitation modes, and polishing depth on fluorescence output, thereby identifying configurations that optimize sensor performance. The results indicate that, for fundamental mode excitation, polishing the fiber…
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Taxonomy
TopicsAdvanced Fiber Optic Sensors · Analytical Chemistry and Sensors · Surface Roughness and Optical Measurements
