Hybrid fiber-THz fronthaul supporting up to 16384-QAM-OFDM with the delta-sigma modulation

With the progress of high-capacity radio access networks, ultra-dense small cells are rapidly being deployed in urban areas. As a result, the deployment of a large number of optical fibers in urban areas becomes a severe issue. In this Letter, we propose a hybrid fiber-terahertz (THz) mobile fronthaul system supporting flexible and high-order wireless signal transmission with the delta-sigma modulation. The photonic THz transmission is used as the seamless extension of fiber-based fronthaul in small cells. A 20-Gbit/s digital fiber-THz fronthaul system is experimentally demonstrated to validate the proposed scheme, with 10-km optical fiber transmission and 300-GHz wireless relay. Carrier aggregation of up to 10 40-MHz and 60-MHz 5G-new radio (5G-NR) channels at the radio carrier frequency of 3.9 GHz is reported. The design of quantization noise suppressed delta-sigma modulation enables the system to transmit orthogonal frequency division multiplexing (OFDM) modulation up to 16384 order quadrate amplitude modulation (QAM) mapping with the error vector magnitude (EVM) below 0.5%.

Automated summary

With the advancement of high-capacity wireless access networks, the deployment of ultra-dense small cells in urban areas is increasing rapidly. This creates a challenge in deploying a large number of optical fibers in urban areas. To address this issue, a hybrid fiber-terahertz mobile fronthaul system is proposed in this study, which enables flexible and high-order wireless signal transmission.