attoclock的时间延迟和非绝热校准。强场相互作用中的多光子过程与隧道效应

IF 3 3区物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY

Annals of Physics Pub Date : 2024-03-24 DOI:10.1016/j.aop.2024.169648

Ossama Kullie , Igor A. Ivanov

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引用次数: 0

摘要

在阿图秒实验中对隧穿时间延迟的测量，即 "attoclock"，引发了关于隧穿时间和时间在量子力学中的作用的激烈讨论。我们展示了一个能解释非绝热场校准中 attoclock 实验结果的模型，发现它与霍夫曼等人的实验数据（J. Mod. Opt. 66, 1052, 2019）十分吻合。我们通过时变薛定谔方程的数值积分证实了这一结果。我们还发现，在场强 F≤Fa 时（Fa 是原子场强），模型总是预测出相对于量子（下限）τa 在 F=Fa 时的时间延迟。对于绝热隧穿，极限（F=Fa）处的饱和解释了著名的哈特曼效应或哈特曼悖论。

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Time delay and nonadiabatic calibration of the attoclock. Multiphoton process versus tunneling in strong field interaction

The measurement of the tunneling time delay in attosecond experiments, termed attoclock, sparked a heated debate about tunneling time and the role of time in quantum mechanics. We show a model that explains the experimental result of the attoclock in the nonadiabatic field calibration, where we find good agreement with the experimental data of Hofmann et al. (J. Mod. Opt. 66, 1052, 2019). We confirm our result with the numerical integration of the time-dependent Schrödinger equation. We also found that at a field strength $F \leq F_{a}$ ( $F_{a}$ is the atomic field strength), the model always predicts a time delay with respect to the quantum (lower) limit $τ_{a}$ at $F = F_{a}$ . For an adiabatic tunneling, the saturation at the limit ( $F = F_{a}$ ) explains the well-known Hartman effect or Hartman paradox.

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来源期刊

Annals of Physics 物理-物理：综合

CiteScore

5.30

自引率

3.30%

发文量

211

审稿时长

47 days

期刊介绍： Annals of Physics presents original work in all areas of basic theoretic physics research. Ideas are developed and fully explored, and thorough treatment is given to first principles and ultimate applications. Annals of Physics emphasizes clarity and intelligibility in the articles it publishes, thus making them as accessible as possible. Readers familiar with recent developments in the field are provided with sufficient detail and background to follow the arguments and understand their significance. The Editors of the journal cover all fields of theoretical physics. Articles published in the journal are typically longer than 20 pages.