III-nitride LEDs and lasers for underwater wireless optical communications

Abstract

This thesis delves into the deployment of III-nitride micro-LED and laser-based devices for Underwater Wireless Optical Communications (UWOC), an emerging field with considerable potential for underwater data transfer. UWOC offers a compelling solution owing to the vast bandwidth available in the visible spectrum (hundreds of THz), the substantial modulation bandwidth of micro-GaN-based devices (hundreds of MHz), and the underwater “window” characterised by low light attenuation at visible wavelengths. Throughout this thesis, extensive experiments were conducted within a 1.5 m water tank, employing various transmitters (Tx’s) and receivers (Rx’s). The results showcase error-free data transmission rates in the gigabits per second (Gb/s) and megabits per second (Mb/s) range, even in the presence of varying water turbidity levels and attenuation lengths (ALs). Notably, data rates of 4.92 Gb/s and 1.32 Gb/s were achieved using a series-connected micro-LED array of 6 pixels, spanning distances of 1.5 m and 4 m, respectively, and achieved 15 Mb/s over 5.33 ALs. Different underwater conditions, influenced by water turbidity, lead to distinct light attenuation minima underwater. Consequently, I highlight the applicability of wavelength division multiplexing (WDM) in real UWOC scenarios. Using transfer-printed (TP) dual-colour micro-LED arrays, data rates of 200 Mb/s were demonstrated over 8.5 ALs. In most UWOC scenarios, establishing a reliable point-to-point underwater link is challenging due to the unpredictable subsea environment and terrestrial weather conditions. To mitigate this, I introduced the deployment of a diffusing fibre coupled with a laser diode, functioning as a Tx for omnidirectional data transmission (underwater “beacon”). This approach circumvented the alignment restrictions between the Tx and Rx, and data at 5 Mb/s were successfully transmitted over 11.81 ALs, showcasing the robustness of this solution.

Date of Award	11 Apr 2024
Original language	English
Awarding Institution	University Of Strathclyde
Sponsors	University of Strathclyde
Supervisor	Martin Dawson (Supervisor) & Erdan Gu (Supervisor)