In Situ Sub-50-Attosecond Active Stabilization of the Delay Between Infrared and Extreme-Ultraviolet Light Pulses

M. Luttmann, D. Bresteau, J. Hergott, O. Tcherbakoff, T. Ruchon
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引用次数: 2

Abstract

The blooming of attosecond science (1 as = $10^{-18}$ s) has raised the need to exquisitely control the delay between two ultrashort light pulses, one of them being intense and in the visible spectral range, while the second is weak and in the Extreme Ultra-Violet spectral range. Here we introduce a robust technique, named LIZARD (Laser-dressed IoniZation for the Adjustment of the pump-pRobe Delay), allowing an active stabilization of this pump-probe delay. The originality of the method lies in an error signal calculated from a two-photon photoelectron signal obtained by photoionizing a gas target in an electronic spectrometer with the two superimposed beams. The modulation of sidebands in phase quadrature allows us to perform an \textit{in situ} measurement of the pump-probe phase, and to compensate for fluctuations with an uniform noise sensitivity over a large range of delays. Despite an interferometer length of several meters, we achieved a long term stability of 28 as RMS over hours. This method could be applied to the stabilization of other types of two-color interferometers, provided that one of the propagating beams is capable of photoionizing a target.
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红外和极紫外光脉冲之间延迟的50阿秒以下的原位主动稳定
阿秒科学(1 as = $10^{-18}$ s)的蓬勃发展提出了精确控制两个超短光脉冲之间延迟的需要,其中一个是强的,在可见光光谱范围内,而另一个是弱的,在极紫外光谱范围内。在这里,我们介绍了一种强大的技术,名为LIZARD(用于调整泵浦-探针延迟的激光修饰电离),允许主动稳定这种泵浦-探针延迟。该方法的新颖之处在于,利用电子谱仪中两束叠加光电离气体靶得到的双光子光电子信号计算误差信号。相位正交中边带的调制使我们能够对泵浦-探头相位进行\textit{原位}测量,并在大范围的延迟中以均匀的噪声灵敏度补偿波动。尽管干涉仪的长度有几米,但我们在几个小时内实现了28倍RMS的长期稳定性。这种方法可以应用于稳定其他类型的双色干涉仪,只要其中一个传播光束能够光电电离目标。
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