English

Circular holographic ionization-phase meter

Atomic Physics 2019-10-02 v1

Abstract

We propose an attosecond XUV-pump IR-probe photoionization protocol that employs pairs of counter-rotating consecutive harmonics and angularly resolved photoelectron detection, thereby providing direct measurement of ionization phases. The present method, which we call circular holographic ionization-phase meter (CHIP), gives also access to the phase of photoemission amplitudes of even-parity continuum states from a single time-delay measurement, since the relative phase of one- and two-photon ionization pathways is imprinted in the photoemission anisotropy. The method is illustrated with \emph{ab initio} simulations of photoionization via autoionizing resonances in helium. The rapid phase excursion in the transition amplitude to both the dipole-allowed (2s2p)1(2s2p)^1Po^{\rm o} and the dipole-forbidden (2p2)1(2p^2)^1De^{\rm e} states are faithfully reproduced.

Keywords

Cite

@article{arxiv.1904.04380,
  title  = {Circular holographic ionization-phase meter},
  author = {Stefan Donsa and Nicolas Douguet and Joachim Burgdörfer and Iva Březinová and Luca Argenti},
  journal= {arXiv preprint arXiv:1904.04380},
  year   = {2019}
}

Comments

6 pages, 5 figures

R2 v1 2026-06-23T08:33:35.782Z