English

Dissecting Sub-Cycle Interference in Photoelectron Holography

Atomic Physics 2021-07-28 v1

Abstract

Multipath holographic interference in strong-field quantum tunnel ionization is key to revealing sub-Angstrom attosecond dynamics for molecular movies. This critical sub-cycle motion is often obscured by longer time-scale effects such as ring-shaped patterns that appear in above-threshold ionization (ATI). In the present work, we overcome this problem by combining two novel techniques in theory and experimental analysis: unit-cell averaging and time-filtering data and simulations. Together these suppress ATI rings and enable an unprecedented highly-detailed quantitative match between strong-field ionization experiments in argon and the Coulomb-quantum orbit strong-field approximation (CQSFA) theory. Velocity map images reveal fine modulations on the holographic spider-like interference fringes that form near the polarization axis. CQSFA theory traces this to the interference of three types of electron pathways. The level of agreement between experiment and theory allows sensitive determination of quantum phase differences and symmetries, providing an important tool for quantitative dynamical imaging in quantum systems.

Keywords

Cite

@article{arxiv.2102.12000,
  title  = {Dissecting Sub-Cycle Interference in Photoelectron Holography},
  author = {Nicholas Werby and Andrew S. Maxwell and Ruaridh Forbes and Philip H. Bucksbaum and Carla Figueira de Morisson Faria},
  journal= {arXiv preprint arXiv:2102.12000},
  year   = {2021}
}

Comments

13 Pages, 8 figures

R2 v1 2026-06-23T23:27:24.469Z