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Hauptverfasser: Shobeiry, Farshad, Fross, Patrick, Srinivas, Hemkumar, Pfeifer, Thomas, Moshammer, Robert, Harth, Anne
Format: Preprint
Veröffentlicht: 2021
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2110.06668
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author Shobeiry, Farshad
Fross, Patrick
Srinivas, Hemkumar
Pfeifer, Thomas
Moshammer, Robert
Harth, Anne
author_facet Shobeiry, Farshad
Fross, Patrick
Srinivas, Hemkumar
Pfeifer, Thomas
Moshammer, Robert
Harth, Anne
contents For photo-dissociation of a single hydrogen molecule (H2) with combined XUV and IR laser pulses, we demonstrate optical control of the emission direction of the photoelectron with respect to the outgoing neutral fragment (the H-atom). Depending on the relative delay between the two laser fields, adjustable with sub-femtosecond time resolution, the photoelectron is emitted into the same hemisphere as the H-atom or opposite. This emission asymmetry is a result of entanglement of the two-electron final-state involving the spatially separated bound and emitted electron.
format Preprint
id arxiv_https___arxiv_org_abs_2110_06668
institution arXiv
publishDate 2021
record_format arxiv
spellingShingle Sub-femtosecond optical control of entangled states
Shobeiry, Farshad
Fross, Patrick
Srinivas, Hemkumar
Pfeifer, Thomas
Moshammer, Robert
Harth, Anne
Quantum Physics
For photo-dissociation of a single hydrogen molecule (H2) with combined XUV and IR laser pulses, we demonstrate optical control of the emission direction of the photoelectron with respect to the outgoing neutral fragment (the H-atom). Depending on the relative delay between the two laser fields, adjustable with sub-femtosecond time resolution, the photoelectron is emitted into the same hemisphere as the H-atom or opposite. This emission asymmetry is a result of entanglement of the two-electron final-state involving the spatially separated bound and emitted electron.
title Sub-femtosecond optical control of entangled states
topic Quantum Physics
url https://arxiv.org/abs/2110.06668