Modeling of a Single Multimode Fiber Imaging System

TL;DR

This paper develops a comprehensive theoretical model for image transmission through a single multimode fiber, incorporating mode-coupling and bending effects, validated by simulations and aligning with experimental observations.

Contribution

It introduces the first complete theoretical model of a single MMF imaging system based on individual mode transmission, enabling detailed analysis of image quality and distortions.

Findings

Model accurately predicts bending-induced image blur

Simulation results agree with experimental data

Provides insights for future MMF imaging system design

Abstract

We present a detailed theoretical analysis on image transmission via a single multimode fiber (MMF). A single MMF imaging model is developed to study the light wave propagation from the light source to the camera, by using free-space Fourier optics theory and mode-coupling theory. A mathematical expression is obtained for the complete single MMF imaging system, which is further validated by image-transmission simulations. Our model is believed to be the first theoretical model to describe the complete MMF imaging system based on the transmission of individual modes. Therefore, this model is robust and capable of analyzing MMF image transmission under specific mode-coupling conditions. We use our model to study bending-induced image blur in single-MMF image transmission, and the result has found a good agreement with that of existing experimental studies. These should provide important insights into future MMF imaging system developments.