磷化铟
数据传输
传输(电信)
激光器
调制(音乐)
数据中心
收发机
计算机科学
电子工程
材料科学
频率调制
多模光纤
钥匙(锁)
异质结双极晶体管
光电子学
啁啾声
光纤
数据链路
互连
云计算
三维光学数据存储
光通信
半导体激光器理论
分布反馈激光器
电信
多路复用
吞吐量
光纤激光器
光学
传动系统
光互连
光纤通道
多路复用器
电气工程
工程类
高数据速率
数据共享
作者
Zhenyao Li,Chen Lyu,Xuliang Zhou,Mengqi Wang,Haotian Qiu,Yejin Zhang,Hou–Yong Yu,Jiaoqing Pan
标识
DOI:10.1088/1674-4926/25030015
摘要
Abstract Currently, the global 5G network, cloud computing, and data center industries are experiencing rapid development. The continuous growth of data center traffic has driven the vigorous progress in high-speed optical transceivers for optical interconnection within data centers. The electro-absorption modulated laser (EML), which is widely used in optical fiber communications, data centers, and high-speed data transmission systems, represents a high-performance photoelectric conversion device. Compared to traditional directly modulated lasers (DMLs), EMLs demonstrate lower frequency chirp and higher modulation bandwidth, enabling support for higher data rates and longer transmission distances. This article introduces the composition, working principles, manufacturing processes, and applications of EMLs. It reviews the progress on advanced indium phosphide (InP)-based EML devices from research institutions worldwide, while summarizing and comparing data transmission rates and key technical approaches across various studies.
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