Ultrafast quantum control of ionization dynamics in krypton

机译：fast离子电离动力学的超快量子控制

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Ultrafast spectroscopy with attosecond resolution has enabled the real time observation of ultrafast electron dynamics in atoms, molecules and solids. These experiments employ attosecond pulses or pulse trains and explore dynamical processes in a pump–probe scheme that is selectively sensitive to electronic state of matter via photoelectron or XUV absorption spectroscopy or that includes changes of the ionic state detected via photo-ion mass spectrometry. Here, we demonstrate how the implementation of combined photo-ion and absorption spectroscopy with attosecond resolution enables tracking the complex multidimensional excitation and decay cascade of an Auger auto-ionization process of a few femtoseconds in highly excited krypton. In tandem with theory, our study reveals the role of intermediate electronic states in the formation of multiply charged ions. Amplitude tuning of a dressing laser field addresses different groups of decay channels and allows exerting temporal and quantitative control over the ionization dynamics in rare gas atoms.

机译：具有亚秒级分辨率的超快光谱学使得能够实时观察原子，分子和固体中的超快电子动力学。这些实验采用了阿秒脉冲或脉冲序列，并探索了一种泵-探针方案中的动力学过程，该方案通过光电子或XUV吸收光谱对物质的电子状态选择性敏感，或者包括通过光离子质谱检测到的离子状态变化。在这里，我们演示了结合光电离和吸收光谱与阿秒分辨率的实现方式如何能够跟踪高度激发的k中数飞秒的俄歇自动电离过程的复杂多维激发和衰减级联。与理论相结合，我们的研究揭示了中间电子态在多电荷离子形成中的作用。修整激光场的振幅调整可解决衰减通道的不同组，并允许对稀有气体原子中的电离动力学进行时间和定量控制。

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期刊名称 Nature Communications
作者
Konrad Hütten; Michael Mittermair; Sebastian O. Stock; Randolf Beerwerth; Vahe Shirvanyan; Johann Riemensberger; Andreas Duensing; Rupert Heider; Martin S. Wagner; Alexander Guggenmos; Stephan Fritzsche; Nikolay M. Kabachnik; Reinhard Kienberger; Birgitta Bernhardt;
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年(卷),期 -1(9),-1
年度 -1
页码 719
总页数 5
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专利

1. Ultrafast quantum control of ionization dynamics in krypton [J] . Konrad Hütten, Michael Mittermair, Sebastian O. Stock, Nature Communications . 2018,第1期

机译：fast中电离动力学的超快速量子控制
2. Ultrafast quantum control of ionization dynamics [J] . Konrad Hütten, Michael Mittermair, Sebastian Stock, EPJ Web of Conferences . 2019,第1期

机译：电离动力学的超快速量子控制
3. Quantum and Semiclassical Physics behind Ultrafast Optical Nonlinearity in the Midinfrared: The Role of Ionization Dynamics within the Field Half Cycle [J] . E. E. Serebryannikov, A. M. Zheltikov Physical review letters . 2014,第4期

机译：中红外中超快光学非线性背后的量子和半经典物理学：半场半衰期中电离动力学的作用
4. INTERFERENCE STABILIZATION: A-AND V-SCHEMES, DYNAMICS OF IONIZATION, INITIAL COHERENT POPULATION OF RYDBERG LEVELS AND QUANTUM PHASE CONTROL OF THE IONIZATION YIELD [C] . M.V. FEDOROV, N.P. POLUEKTOV, NATO NATO advanced research workshop on super-intense laser-atom physics . 2001

机译：干扰稳定：A-and V-方案，电离动力学，rydberg水平的初始相干群和电离产量的量子相控制
5. Ultrafast Exciton Dynamics and Optical Control in Semiconductor Quantum Dots. [D] . Wijesundara, Kushal Chinthaka. 2012

机译：半导体量子点中的超快激子动力学和光学控制。
6. Quantum size effect on charges and phonons ultrafast dynamics in atomically controlled nanolayers of topological insulators Bi2Te3 [O] . M. Weis, B. Wilk, G. Vaudel, -1

机译：量子尺寸对拓扑绝缘子Bi2Te3原子控制纳米层中电荷和声子超快动力学的影响
7. Ultrafast quantum control of ionization dynamics [O] . Konrad Hütten, Michael Mittermair, Sebastian Stock, 2019

机译：超快量子控制电离动力学
8. Ultrafast Dynamics of Strong-Field Dissociative Ionization of CH2Br2 Probed by Femtosecond Soft X-Ray Transient Absorption Spectroscopy [R] . Loh, Z., Leone, S. R. 2008

机译：飞秒软X射线瞬态吸收光谱法研究CH2Br2强场解离电离的超快动力学

Ultrafast quantum control of ionization dynamics in krypton

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