5 G new radio fiber-wireless converged systems by injection locking multi-optical carrier into directly-modulated lasers

Hai-Han Lu, Hsiao-Mei Lin, Chia-Peng Wang, Stotaw Talbachew Hayle, Chung-Yi Li, Xu-Hong Huang, Yu-Yao Bai, Kelper Okram, Jia-Ming Lu, Yu-Chen Chung, Wei-Wen Hsu
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Abstract

The integration of fiber-optical wireless convergence with fifth generation new radio is crucial in building high-performance access networks. This approach not only provides high-transmission-rates but also ensures broad coverage, which is vital for future networks. Here we report fifth generation new radio fiber-wireless converged systems by injection locking multi-optical carrier into directly-modulated lasers. Data rates of 10 Gb/s, 20 Gb/s, and 40 Gb/s are achieved by direct modulation on directly-modulated lasers using 16-quadrature amplitude modulation-orthogonal frequency-division multiplexing signal. Through 25-km single-mode fiber, 1.5-km optical wireless, and 12-/22-/33-m millimeter-wave/sub-terahertz wireless integrated-media, 10-Gb/s/20-GHz, 20-Gb/s/60-GHz, and 40-Gb/s/100-GHz signals are transmitted with acceptably low bit error rates and error vector magnitudes, as well as distinct constellations. The successful transport of fifth generation new radio millimeter-wave and sub-terahertz signals at different carrier frequencies through fiber-wireless convergence demonstrates the potential of the system to meet the evolving requirement of next-generation communications. Hai-Han Lu and co-authors present a new radio transmission system. Using directly modulated laser thought injection locking of the optical comb, they demonstrate millimeter wave/sub-terahertz wireless and fiber transmission.

Abstract Image

通过向直接调制激光器注入锁定多光载波,实现 5 G 新型无线电光纤-无线融合系统
光纤无线融合与第五代新型无线电的整合对于构建高性能接入网络至关重要。这种方法不仅能提供高传输速率,还能确保广泛的覆盖范围,这对未来网络至关重要。在此,我们报告了通过将多光载波注入锁定到直接调制激光器中的第五代新型无线电光纤-无线融合系统。通过使用 16 正交调幅-正交频分复用信号对直接调制激光器进行直接调制,实现了 10 Gb/s、20 Gb/s 和 40 Gb/s 的数据传输速率。通过 25 千米长的单模光纤、1.5 千米长的无线光缆和 12/22/33 千米长的毫米波/次太赫兹无线集成介质,10-Gb/s/20-GHz、20-Gb/s/60-GHz 和 40-Gb/s/100-GHz 信号的传输具有可接受的低误码率和误差矢量幅度以及独特的星座。通过光纤-无线融合成功传输不同载波频率的第五代新无线电毫米波和亚太赫兹信号,表明该系统具有满足下一代通信不断发展的要求的潜力。Hai-Han Lu 和合著者提出了一种新的无线电传输系统。他们利用直接调制激光思想注入锁定光梳,演示了毫米波/亚太赫兹无线和光纤传输。
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