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High Power Efficiency and Dynamic Range Analog Photonic Link with Suppressed Dispersion-Induced Power Fading

机译:高功率效率和动态范围模拟光子连接与抑制色散引起的功率衰落

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摘要

An analog photonic link (APL) based on a dual-polarization dual-parallel Mach-Zehnder modulator (DP-DPMZM) is proposed and experimentally demonstrated. The proposed APL can suppress the nonlinearity of modulator, compensate the power fading induced by dispersion (PFID), and improve the power efficiency of link, leading to large dynamic range. The PFID and the nonlinearity are suppressed by adjusting the phase of optical carrier (OC) and polarization controller (PC), respectively. In addition, by optimizing the optical carrier to sideband ratio (OCSR) in the DP-DPMZM, the output RF power and the power efficiency of link can be significantly improved while the total optical power received by the photodetector (PD) remains constant. An experiments are performed to demonstrate the feasibility of the APL. The results show that an spurious free dynamic range (SFDR) of 103.2 dB center dot Hz(4/5) for 13.73 GHz is achieved after compensating PFID and nonlinearity, which is 32 dB higher than that of a conventional double sideband (DSB) assisted APL. After OCSR optimizing, the output RF power achieves 13-dB improvement, and the SFDR is further raised to 114.1 dB center dot Hz(4/5).
机译:提出了基于双极化双平行马克Zehnder调制器(DP-DPMZM)的模拟光子链路(APL),并实验证明。所提出的APL可以抑制调制器的非线性,补偿通过分散(PFID)引起的功率衰落,提高链路的功率效率,导致大动态范围。通过分别调整光学载波(OC)和偏振控制器(PC)的相位来抑制PFID和非线性。另外,通过在DP-DPMZM中优化光学载波到边带比(OCSR),可以显着提高输出RF功率和链路的功率效率,同时由光电探测器(PD)接收的总光功率保持恒定。进行实验以证明APL的可行性。结果表明,在补偿PFID和非线性之后实现了103.2dB中心点Hz(4/5)的杂散自由动态范围(SFDR)为13.73GHz,这是32 dB高于传统双边带(DSB)辅助的32 dB APL。在OCSR优化之后,输出RF功率达到13-DB的改进,SFDR进一步升至114.1dB中心点Hz(4/5)。

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