基于功率可扩展概念的高功率飞秒Yb:YAG激光器

Advanced Solid State Lasers Pub Date : 2000-02-13 DOI:10.1364/ASSL.2000.MA8

G. Spuhler, J. G. Ho, J. A. Au, R. Paschotta, U. Keller, M. Moser, S. Erhard, M. Karszewski, A. Giesen

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引用次数: 4

摘要

我们展示了具有非常高平均功率的飞秒激光器的功率可扩展概念。它基于薄盘Yb:YAG激光器[1]，采用半导体可饱和吸收镜(SESAM)被动锁模[2,3]。在第一步中，我们获得了16.2 W的脉冲平均功率，持续时间为730秒，能量为0.47 μJ，峰值功率为560 kW(图1)。据我们所知，这是亚皮秒范围内激光振荡器的最高平均功率，我们预计在不久的将来可能会有更高的功率。重复频率为34.6 MHz，波束质量接近衍射极限(M2 < 1.5)。这种激光器在许多应用中都很有趣，例如在RGB激光显示器中同步泵送高功率光学参数振荡器。

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High-power femtosecond Yb:YAG laser based on a power-scalable concept

We demonstrate a power-scalable concept for femtosecond lasers with very high average powers. It is based on a thin disk Yb:YAG laser [1], passively mode-locked with a semiconductor saturable absorber mirror (SESAM) [2, 3]. In a first step, we obtained 16.2 W of average power in pulses with 730 fs duration, 0.47 μJ energy, and 560 kW peak power (Fig. 1). This is to our knowledge the highest average power reported for a laser oscillator in the subpicosecond regime, and we expect even significantly higher powers to be possible in the near future. The repetition rate is 34.6 MHz and the beam quality is close to diffraction-limited (M2 < 1.5). Such lasers are interesting for numerous applications, e.g. for synchronously pumping high-power optical parametrical oscillators in RGB laser displays.

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Advanced Solid State Lasers

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