Optical Fiber MIMO Channel Model and its Analysis

TL;DR

This paper introduces a novel optical fiber MIMO channel model inspired by mesoscopic physics, capturing crosstalk and loss, and derives its capacity using advanced theoretical tools, aiding the understanding of space division multiplexing potential.

Contribution

It presents a new channel model for optical fiber MIMO systems based on scattering theory and analyzes its capacity with replica and random matrix theories.

Findings

Model captures crosstalk and mode-dependent loss

Derived capacity expressions for the optical fiber MIMO channel

Provides insights into space division multiplexing gains

Abstract

Technology is moving towards space division multiplexing in optical fiber to keep up the trend in rate increase over time and to avoid an imminent capacity crunch. Thus, it is of paramount interest to estimate the potential gains of this approach. As more spatial channels are being packed into a single fiber, the increased crosstalk necessitates the use of MIMO to guarantee reliable operation. In this paper, we exploit the analogy between an optical fiber and a model from mesoscopic physics - a chaotic cavity - to obtain a novel channel model for the optical fiber. The model captures both random distributed crosstalk and modedependent loss, which are described within the framework of scattering theory. Using tools from replica theory and random matrix theory, we derive the capacity of the fiber optical MIMO channel model.