Phase-Shift Design and Channel Modeling for Focused Beams in IRS-Assisted FSO Systems

TL;DR

This paper proposes a phase-shift design for IRS in FSO systems to focus beams, introduces a pointing error model, and analyzes outage performance, validated by simulations, advancing focused beam research in FSO communications.

Contribution

It introduces a novel phase-shift design for IRS to focus beams and a new pointing error model for FSO systems.

Findings

Validated phase-shift design through simulations.

Provided outage performance analysis for focused beams.

Established foundational results for future focused beam FSO research.

Abstract

Interest in free-space optics (FSO) is rapidly growing as a potential solution for the backhaul of next-generation mobile or low-orbit satellite communications. Various techniques have been suggested for employing an intelligent reflecting surface (IRS) in FSO systems, such as anomalous reflection, power amplification, and beam splitting. It is possible to deliver more power to the receiver (Rx) by collimating or focusing the reflected beam at the Rx lens. In this study, we propose a phase-shift design of an IRS for beam focusing. In addition, we propose a new pointing error model and an outage performance analysis applicable when the beam width is comparable to or less than the aperture size of the Rx. The analytical results are validated by Monte Carlo simulations. This study provides essential preliminary results for future researches that assume a focused beam in FSO systems.