Dual‐Functional Triangular‐Shape Micro‐Size Light‐Emitting and Detecting Diode for On‐Chip Optical Communication in the Deep Ultraviolet Band

Light‐emitting diodes and photodiodes, often acting as transmitters and receivers, are two key optical components for constructing an optical communication system. Recently, solar‐blind optical wireless communication (SB‐OWC) has emerged as a promising free‐space communication platform due to its un...

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Bibliographic Details
Published in:Laser & photonics reviews 2024-08, Vol.18 (8), p.n/a
Main Authors: Yu, Huabin, Xiao, Shudan, Memon, Muhammad Hunain, Luo, Yuanmin, Wang, Rui, Li, Dong, Shen, Chao, Sun, Haiding
Format: Article
Language:English
Subjects:
Background noise
Communication
Communications systems
Current injection
Data transmission
Diodes
Emission
Emitters
Light emitting diodes
micro‐LED
micro‐PD
Optical communication
Optical components
Photodiodes
solar blind
Space communication
Transmitters
Wireless communications
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Summary:Light‐emitting diodes and photodiodes, often acting as transmitters and receivers, are two key optical components for constructing an optical communication system. Recently, solar‐blind optical wireless communication (SB‐OWC) has emerged as a promising free‐space communication platform due to its unique advantages, including low background noise, high security, and non‐line‐of‐sight ability. However, the development of deep ultraviolet (DUV) emitters and detectors is still in its early stages with relatively low efficiency and poor detection capability, which hampers the further progress of SB‐OWC. Herein, a triangular‐shaped micro‐sized diode (T‐μ‐diode) is reported that can significantly boost its DUV emission and detection performance compared with a regular circular‐shaped micro‐diode (C‐μ‐diode) due to improved current injection and enhanced light extraction/absorption behavior. Specifically, the T‐μ‐diodes demonstrate superior light output power with a −3 dB modulation bandwidth over 566 MHz operating at an extremely high current density of 2 kA cm−2 while possessing a higher photo‐responsivity of ≈160 mA W−1 with a faster response speed of 5.1 ns, surpassing the traditional C‐μ‐diodes in both light emitting and detecting modes. Importantly, a bidirectional on‐chip data transmission system is realized by simply switching the operation mode of two T‐μ‐diodes monolithically fabricated on the same platform with boosted emission and detection functionalities. Highly efficient and high‐speed triangular micro‐size light‐emitting/detecting diodes excelling in light output power density (75 W cm−2), modulation bandwidth (566 MHz), photo‐responsivity (160 mA W−1), and response time (3.1 ns), outperforming traditional circular micro‐diodes, are showcased. Outperforming circular counterparts, these diodes also support bidirectional on‐chip data transmission through mode switching, boosting emission and detection capabilities.
ISSN:1863-8880
1863-8899
DOI:10.1002/lpor.202300789