Full experimental determination of tunneling time with attosecond-scale streaking method

Tunneling is one of the most fundamental and ubiquitous processes in the quantum world. The question of how long a particle takes to tunnel through a potential barrier has sparked a long-standing debate since the early days of quantum mechanics. Here, we propose and demonstrate a novel scheme to acc...

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Veröffentlicht in:Light, science & applications science & applications, 2022-07, Vol.11 (1), p.215-215, Article 215
Hauptverfasser: Yu, Miao, Liu, Kun, Li, Min, Yan, Jiaqing, Cao, Chuanpeng, Tan, Jia, Liang, Jintai, Guo, Keyu, Cao, Wei, Lan, Pengfei, Zhang, Qingbin, Zhou, Yueming, Lu, Peixiang
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Sprache:eng
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Zusammenfassung:Tunneling is one of the most fundamental and ubiquitous processes in the quantum world. The question of how long a particle takes to tunnel through a potential barrier has sparked a long-standing debate since the early days of quantum mechanics. Here, we propose and demonstrate a novel scheme to accurately determine the tunneling time of an electron. In this scheme, a weak laser field is used to streak the tunneling current produced by a strong elliptically polarized laser field in an attoclock configuration, allowing us to retrieve the tunneling ionization time relative to the field maximum with a precision of a few attoseconds. This overcomes the difficulties in previous attoclock measurements wherein the Coulomb effect on the photoelectron momentum distribution has to be removed with theoretical models and it requires accurate information of the driving laser fields. We demonstrate that the tunneling time of an electron from an atom is close to zero within our experimental accuracy. Our study represents a straightforward approach toward attosecond time-resolved imaging of electron motion in atoms and molecules. A novel attosecond-scale streaking method was proposed and demonstrated to determine the tunneling time of an electron with a precision of a few attoseconds.
ISSN:2047-7538
2095-5545
2047-7538
DOI:10.1038/s41377-022-00911-8