Ionic Coherence in Resonant Above-Threshold Attosecond Ionization Spectroscopy
Abstract
The ionization of atoms with sequences of attosecond pulses gives rise to excited ionic states that are entangled with the emitted photoelectron. Still, the ionic ensemble preserves some coherence that can be controlled through the laser parameters. In helium, control of the He coherence is mediated by the autoionizing states below the threshold [Phys. Rev. Res. {\bf 3}, 023233 (2021)]. In the present work we study the role of the resonances both below and above the threshold on the coherence of the He ion, in the attosecond pump-probe ionization of the helium atom, which we simulate using the newstock \emph{ab initio} code. Due to the fine-structure splitting of the N=3 He level, the ionic dipole beats on a picosecond timescale. We show how, from the dipole beating, it is possible to reconstruct the polarization of the ion at its inception.
Cite
@article{arxiv.2209.13626,
title = {Ionic Coherence in Resonant Above-Threshold Attosecond Ionization Spectroscopy},
author = {Saad Mehmood and Eva Lindroth and Luca Argenti},
journal= {arXiv preprint arXiv:2209.13626},
year = {2023}
}
Comments
13 pages, 9 figures