利用双频固体激光器产生高光谱纯度的微波信号

MWP 2003 Proceedings. International Topical Meeting on Microwave Photonics, 2003. Pub Date : 2003-09-10 DOI:10.1109/MWP.2003.1422861

M. Brunel, F. Bretebaker, N. D. Lai, M. Alouini, M. Vallet, O. Emile, A. Le Floch

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引用次数: 6

摘要

双频固态激光器在微波频率下具有连续可调性、高光谱纯度和100%调制深度。由于腔内双折射晶体同时提供电学和热光学特性，激光器提供了电压和温度控制的拍频。首先，实验证明了双锁相环可以稳定双频固体激光器对抗射频合成器，从而使线宽达到25 mHz。其次，我们证明了泵浦功率调制可以导致具有脉冲到脉冲射频相干性的新的双频脉冲操作。第三，一种特殊设计的双频复合Er-Yb:glass-LiTaO/sub - 3/微芯片激光器可提供高达100 GHz的连续可调谐拍音。讨论了这些激光器在微波-光子系统本振和激光雷达中的应用。

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Microwave signal generation with high spectral purity using two-frequency solid-state lasers

Two-frequency solid-state lasers are shown to provide beat notes at microwave frequencies with continuous tunability, high spectral purity and 100% modulation depth. Owing to an intra-cavity birefringent crystal providing both electro- and thermo-optic properties, the laser delivers a beat frequency that is both voltage- and temperature-controlled. First, a dual phase-locked loop is experimentally demonstrated to stabilize a two-frequency solid-state laser against a RF synthesizer, resulting in a linewidth of 25 mHz. Second, we show that pump-power modulation can lead to a new two-frequency pulsed operation with pulse-to-pulse RF coherence. Third, a specially designed two-frequency composite Er-Yb:glass-LiTaO/sub 3/ microchip laser is shown to provide a beat note up to 100 GHz with continuous tunability. Applications of these lasers to local oscillators in microwave-photonic systems and to lidar-radars are discussed.

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来源期刊

MWP 2003 Proceedings. International Topical Meeting on Microwave Photonics, 2003.

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