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引用次数: 1
摘要
对工作在毫米波范围内、具有良好噪声系数和高动态范围的高速光纤链路的需求不断增加[1,2]。这些链路用于数据通信、多媒体信号分发、为无线通信以及雷达和遥感提供光纤接入。最常用的毫米波副载波源是主动或被动锁模半导体激光器。它们体积小,结构紧凑,但具有不受欢迎的高啁啾和相位噪声。锁模光纤激光器提供高性能,但体积庞大。在本文中,我们描述了一个紧凑的锁模Nd: LiNb03微芯片激光器集成到一个微波腔。这种方法的重要新颖之处在于,在微芯片配置中,相同的介质Nd: L imo3晶体既可以作为增益介质,也可以作为相位调制器。实验结果包括在40GHz时的模式锁定和在1k &偏移时的相位噪声为-1 lOdBc/Hz。演示还将包括对该设备中的模式锁定的分析。
Modelocked Microchip Laser With Millimeter Wave Subcarrier
Introduction There is increased demand for high speed fiberoptic links operating in the millimeter wave range with good noise figure and high dynamic range [1,2]. These links are used in data communications, multimedia signal distribution, providing fiberoptic access to wireless communications, as well as radar and remote sensing. Most commonly used millimeter-wave subcarrier sources are actively or passively modelocked semiconductor lasers. They are small, compact but have undesirably high chirp and phase noise. Mode locked fiber lasers provide high performance, but are bulky. In this paper we describe a compact mode locked Nd: LiNb03 microchip laser incorporated into a microwave cavity. The significant novelty of this approach is that the same medium, the Nd: L imo3 crystal, serves the gain medium as well as the phase modulator, in microchip configuration. Experimental results include mode locking at 40GHz and a phase noise of -1 lOdBc/Hz at 1kJ& offset. The presentation will also include an analysis of the mode locking in this device.
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