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Nuclear–electron correlation effects and their photoelectron imprint in molecular XUV ionisation

Nuclear–electron correlation effects and their photoelectron imprint in molecular XUV ionisation
Nuclear–electron correlation effects and their photoelectron imprint in molecular XUV ionisation

The ionisation of molecules by attosecond XUV pulses is accompanied by complex correlated dynamics, such as the creation of coherent electron wave packets in the parent ion, their interplay with nuclear wave packets, and a correlated photoelectron moving in a multi-centred potential. Additionally, these processes are influenced by the dynamics prior to and during the ionisation. To fully understand and subsequently control the ionisation process on different time scales, a profound understanding of electron and nuclear correlation is needed. Here, we investigate the effect of nuclear–electron correlation in a correlated two-electron and one-nucleus quantum model system. Solving the time-dependent Schrödinger equation allows to monitor the correlation impact pre, during, and post-XUV ionisation. We show how an initial nuclear wave packet displaced from equilibrium influences the post-ionisation dynamics by means of momentum conservation between the target and parent ion, whilst the attosecond electron population remains largely unaffected. We calculate time-resolved photoelectron spectra and their asymmetries and demonstrate how the coupled electron–nuclear dynamics are imprinted on top of electron–electron correlation on the photoelectron properties. Finally, our findings give guidelines towards when correlation resulting effects have to be incorporated and in which instances the exact correlation treatment can be neglected.

attosecond science, Dynamics, ultrafast phenomena, photoelectron specroscopy, femtochemistry, TDSE
2296-2646
Ziems, Karl Michael
6d346238-2471-47c7-b89f-590059caf037
Bruhnke, Jakob
e4dd9311-a107-4bd9-9d36-ad7d2bdce9fc
Engel, Volker
31d073c3-2215-465a-8e5b-0cd5697198ba
Gräfe, Stefanie
32b99c66-1736-44b1-9a25-aafd5991dbae
Ziems, Karl Michael
6d346238-2471-47c7-b89f-590059caf037
Bruhnke, Jakob
e4dd9311-a107-4bd9-9d36-ad7d2bdce9fc
Engel, Volker
31d073c3-2215-465a-8e5b-0cd5697198ba
Gräfe, Stefanie
32b99c66-1736-44b1-9a25-aafd5991dbae

Ziems, Karl Michael, Bruhnke, Jakob, Engel, Volker and Gräfe, Stefanie (2022) Nuclear–electron correlation effects and their photoelectron imprint in molecular XUV ionisation. Frontiers in Chemistry, 10, [942633]. (doi:10.3389/fchem.2022.942633).

Record type: Article

Abstract

The ionisation of molecules by attosecond XUV pulses is accompanied by complex correlated dynamics, such as the creation of coherent electron wave packets in the parent ion, their interplay with nuclear wave packets, and a correlated photoelectron moving in a multi-centred potential. Additionally, these processes are influenced by the dynamics prior to and during the ionisation. To fully understand and subsequently control the ionisation process on different time scales, a profound understanding of electron and nuclear correlation is needed. Here, we investigate the effect of nuclear–electron correlation in a correlated two-electron and one-nucleus quantum model system. Solving the time-dependent Schrödinger equation allows to monitor the correlation impact pre, during, and post-XUV ionisation. We show how an initial nuclear wave packet displaced from equilibrium influences the post-ionisation dynamics by means of momentum conservation between the target and parent ion, whilst the attosecond electron population remains largely unaffected. We calculate time-resolved photoelectron spectra and their asymmetries and demonstrate how the coupled electron–nuclear dynamics are imprinted on top of electron–electron correlation on the photoelectron properties. Finally, our findings give guidelines towards when correlation resulting effects have to be incorporated and in which instances the exact correlation treatment can be neglected.

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More information

Published date: 5 August 2022
Additional Information: Publisher Copyright: Copyright © 2022 Ziems, Bruhnke, Engel and Gräfe.
Keywords: attosecond science, Dynamics, ultrafast phenomena, photoelectron specroscopy, femtochemistry, TDSE
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Identifiers

Local EPrints ID: 498208
URI: http://eprints.soton.ac.uk/id/eprint/498208
DOI: doi:10.3389/fchem.2022.942633
ISSN: 2296-2646
PURE UUID: c8e80b2e-6d8c-4230-921b-3dc14a54078f
ORCID for Karl Michael Ziems: ORCID iD orcid.org/0000-0001-5369-7778

Catalogue record

Date deposited: 12 Feb 2025 17:45
Last modified: 13 Feb 2025 03:16

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Contributors

Author: Karl Michael Ziems ORCID iD
Author: Jakob Bruhnke
Author: Volker Engel
Author: Stefanie Gräfe

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