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微波光子学将对未来雷达技术发展产生重要影响。微波光电振荡器是一种新颖的、有发展前途的高质量微波信号源,将是振荡器领域的革命性突破。分析了微波光电振荡器工作原理,结果表明,环路中各部件的低噪声、环路高增益和环路等效长时延是实现光电振荡器低相位噪声的有效技术路径。给出了一种双回路X波段低相位噪声光电振荡器的实验研究结果,与高性能电子频率合成器和国际先进光电振荡器进行了对比。对比结果表明,光电振荡器噪声基底较传统高性能电子频综器有极大的性能优势,而近载频相位噪声较传统高性能电子频综器的性能有待进一步提高,主要原因是光电器件的温度特性漂移较大。最后对未来的技术发展路径进行了讨论与展望。 相似文献
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In this letter,we propose and demonstrate a simple and novel method for fiber chromatic dispersion(CD) measurement based on microwave photonic technique.The radio frequency(RF) signal is modulated simultaneously on two light-waves with different wavelengths,and the light-wave carrying RF signals transmit through the dispersive medium under test.CD can be obtained by monitoring the power changing of the interference RF signals after photo detector.The CD values of the single-mode and dispersion compensation fibers are both measured within the wavelength range from 1 525 to 1 605 nm,which verifies the feasibility of this method. 相似文献
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A photonic approach for measuring microwave frequency over a wide bandwidth is proposed.An optic group delay line composed of several magneto-optical switches and a 1.6-km single-mode fiber is used as a tunable dispersive medium in the measurement setup.A minimum frequency accuracy of 80 MHz in the range of 1-20 GHz is achieved experimentally. 相似文献
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文中提出了一种基于光纤色散真时延技术的光控相控阵雷达多波束接收网络。该网络制作原理是根据光纤的色散特性,主要由密集波分复用器(DWDM)和光纤延时模块构成。DWDM 实现对多通道光合成,多个光开关和光纤延时环组成的光纤延时模块实现对合成的多路光载波进行延时量调节,从而实现波束扫描。依据原理方案,研制了一套16通道光接收、双波束形成网络,实现从-40°到+45°的16个不同波束指向扫描,切换速度≤30us。暗室测试证明了其波束形成能力。 相似文献
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