可见光通信
光电子学
材料科学
二极管
带宽(计算)
可见光谱
光学
面(心理学)
激光器
半导体激光器理论
发光二极管
调制(音乐)
光通信
蓝光
蓝光激光器
激光二极管
三维光学数据存储
光学腔
分布式布拉格反射镜
分布反馈激光器
蓝移
共振(粒子物理)
垂直腔面发射激光器
作者
Chunlei Tao,X Ren,Jianping Liu,Leihao Sun,Xinyi Jiang,Chao Shen,Hezhi Zhang,Jianping Liu
摘要
Visible light communication (VLC) is attracting growing interest for energy-efficient, high-bandwidth links for next-generation data centers. GaN-based blue edge-emitting micro-laser diodes (micro-LDs) with cavity lengths down to 40 μm are demonstrated based on optical resonance between a cleaved facet and an etched facet with laterally deposited distributed Bragg reflector. The threshold current as low as 9.6 mA and slope efficiency of 0.32 W/A are achieved for an 80 μm-cavity-length device. The VLC characteristics of 140 μm micro-LD show a broader −3 dB modulation bandwidth of 429 MHz and a higher data rate of 5.3 Gbps, compared with those of standard 500 μm LD. These results demonstrate the potential application of GaN-based blue edge-emitting micro-LDs as a compact and low-power laser platform for augmented/virtual reality displays and short-distance optical communication for inter-chip optical interconnections.
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