High-Power Mid-Infrared Quantum Cascade Lasers for Free-Space Communications

2022 IEEE Photonics Conference (IPC) Pub Date : 2022-11-01 DOI:10.1109/IPC53466.2022.9975626
M. Turville-Heitz, J. Ryu, J. Kirch, S. Jacobs, R. Marsland, T. Earles, S. Ruder, K. Oresick, D. Botez, L. Mawst
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Abstract

Given the ever-growing need for high-data rate, low-latency, secure, wireless communications driven by applications ranging from vehicle automation to ad-hoc battlefield command and control, free-space communication links (FSCLs) operating outside of the regulated and crowded rf-frequency bands are increasingly in demand. Recent research has verified that there are advantages to using MWIR and LWIR wavelengths for FSCLs through the atmosphere [1]. If the transmitter and receiver components can be developed to meet the FSCL requirements, this would enable lower latency than satellite links, greater security than rf, longer range than mm-wave, and greater availability than near-IR systems.
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用于自由空间通信的大功率中红外量子级联激光器
鉴于从车辆自动化到自组织战场指挥和控制等应用对高数据速率、低延迟、安全、无线通信的需求不断增长,在受管制和拥挤的rf频段之外运行的自由空间通信链路(fscl)的需求日益增加。最近的研究已经证实,使用MWIR和LWIR波长对通过大气的fscl具有优势[1]。如果发射器和接收器组件能够满足FSCL的要求,这将实现比卫星链路更低的延迟,比射频更高的安全性,比毫米波更远的范围,比近红外系统更高的可用性。
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2022 IEEE Photonics Conference (IPC)
2022 IEEE Photonics Conference (IPC)
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