Continuous-variable quantum state tomography of photoelectrons

H. Laurell; D. Finkelstein-Shapiro; C. Dittel; C. Guo; R. Demjaha; M. Ammitzböll; R. Weissenbilder; L. Neoričić; S. Luo; M. Gisselbrecht; C. L. Arnold; A. Buchleitner; T. Pullerits; A. L'Huillier; D. Busto

doi:10.1103/PhysRevResearch.4.033220

Physical Review Research (Sep 2022)

Continuous-variable quantum state tomography of photoelectrons

H. Laurell,
D. Finkelstein-Shapiro,
C. Dittel,
C. Guo,
R. Demjaha,
M. Ammitzböll,
R. Weissenbilder,
L. Neoričić,
S. Luo,
M. Gisselbrecht,
C. L. Arnold,
A. Buchleitner,
T. Pullerits,
A. L'Huillier,
D. Busto

Affiliations

H. Laurell
D. Finkelstein-Shapiro
C. Dittel
C. Guo
R. Demjaha
M. Ammitzböll
R. Weissenbilder
L. Neoričić
S. Luo
M. Gisselbrecht
C. L. Arnold
A. Buchleitner
T. Pullerits
A. L'Huillier
D. Busto

DOI: https://doi.org/10.1103/PhysRevResearch.4.033220
Journal volume & issue: Vol. 4, no. 3
p. 033220

Abstract

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We propose a continuous variable quantum state tomography protocol of electrons which result from the ionization of atoms or molecules by the absorption of extreme ultraviolet light pulses. Our protocol is benchmarked against a direct calculation of the quantum state of photoelectrons ejected from helium and argon in the vicinity of a Fano resonance. In the latter case, we furthermore distill ion-photoelectron entanglement due to spin-orbit splitting. This opens routes toward the investigation of quantum coherence and entanglement properties on the ultrafast timescale.

Published in Physical Review Research

ISSN: 2643-1564 (Online)
Publisher: American Physical Society
Country of publisher: United States
LCC subjects: Science: Physics
Website: https://journals.aps.org/prresearch/

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