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用于产生高功率孤立阿秒脉冲的增强型多色选通

Enhanced multi-colour gating for the generation of high-power isolated attosecond pulses.

作者信息

Haessler S, Balčiūnas T, Fan G, Chipperfield L E, Baltuška A

机构信息

1] Laboratoire d'Optique Appliqueé, ENSTA-Paristech, Ecole Polytechnique, CNRS, Université Paris-Saclay 91761 Palaiseau Cedex, France [2] Photonics Institute, Vienna University of Technology, Gußhausstraße 27/387, 1040 Vienna, Austria.

Photonics Institute, Vienna University of Technology, Gußhausstraße 27/387, 1040 Vienna, Austria.

出版信息

Sci Rep. 2015 May 22;5:10084. doi: 10.1038/srep10084.

Abstract

Isolated attosecond pulses (IAP) generated by high-order harmonic generation are valuable tools that enable dynamics to be studied on the attosecond time scale. The applicability of these IAP would be widened drastically by increasing their energy. Here we analyze the potential of using multi-colour driving pulses for temporally gating the attosecond pulse generation process. We devise how this approach can enable the generation of IAP with the available high-energy kHz-repetition-rate Ytterbium-based laser amplifiers (delivering 180-fs, 1030-nm pulses). We show theoretically that this requires a three-colour field composed of the fundamental and its second harmonic as well as a lower-frequency auxiliary component. We present pulse characterization measurements of such auxiliary pulses generated directly by white-light seeded OPA with the required significantly shorter pulse duration than that of the fundamental. This, combined with our recent experimental results on three-colour waveform synthesis, proves that the theoretically considered multi-colour drivers for IAP generation can be realized with existing high-power laser technology. The high-energy driver pulses, combined with the strongly enhanced single-atom-level conversion efficiency we observe in our calculations, thus make multi-colour drivers prime candidates for the development of unprecedented high-energy IAP sources in the near future.

摘要

通过高次谐波产生的孤立阿秒脉冲(IAP)是研究阿秒时间尺度上动力学的重要工具。增加这些IAP的能量将极大地拓宽其应用范围。在此,我们分析了使用多色驱动脉冲对阿秒脉冲产生过程进行时间选通的潜力。我们设计了这种方法如何能够利用现有的高能量千赫兹重复频率的基于镱的激光放大器(输出180飞秒、1030纳米脉冲)来产生IAP。我们从理论上表明,这需要一个由基频及其二次谐波以及一个低频辅助分量组成的三色场。我们展示了由白光种子光参量放大器直接产生的此类辅助脉冲的脉冲特性测量结果,其脉冲持续时间比基频脉冲所需的短得多。这与我们最近关于三色波形合成的实验结果相结合,证明了理论上考虑的用于产生IAP的多色驱动可以通过现有的高功率激光技术实现。高能量驱动脉冲,再加上我们在计算中观察到的单原子水平转换效率的大幅提高,使得多色驱动成为在不久的将来开发前所未有的高能量IAP源的主要候选方案。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/db5c/4441196/840df1e3f378/srep10084-f1.jpg

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