Attosecond electron–spin dynamics in Xe 4d photoionization

Attosecond electron–spin dynamics in Xe 4d photoionization

Here the authors report experiment and theory study of the photoionization of xenon inner shell 4d electron using attosecond pulses. They have identified two ionization paths - one corresponding to broad giant dipole resonance with short decay time and the other involving spin-flip transitions.

Bibliographic Details
Main Authors: Shiyang Zhong, Jimmy Vinbladh, David Busto, Richard J. Squibb, Marcus Isinger, Lana Neoričić, Hugo Laurell, Robin Weissenbilder, Cord L. Arnold, Raimund Feifel, Jan Marcus Dahlström, Göran Wendin, Mathieu Gisselbrecht, Eva Lindroth, Anne L’Huillier
Format: Article
Language:English
Published: Nature Publishing Group 2020-10-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-020-18847-1
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spelling doaj-f8bcd367c5d64df48e2bda3992650c092021-10-10T11:46:45ZengNature Publishing GroupNature Communications2041-17232020-10-011111610.1038/s41467-020-18847-1Attosecond electron–spin dynamics in Xe 4d photoionizationShiyang Zhong0Jimmy Vinbladh1David Busto2Richard J. Squibb3Marcus Isinger4Lana Neoričić5Hugo Laurell6Robin Weissenbilder7Cord L. Arnold8Raimund Feifel9Jan Marcus Dahlström10Göran Wendin11Mathieu Gisselbrecht12Eva Lindroth13Anne L’Huillier14Department of Physics, Lund UniversityDepartment of Physics, Stockholm University, AlbaNova University CenterDepartment of Physics, Lund UniversityDepartment of Physics, University of GothenburgDepartment of Physics, Lund UniversityDepartment of Physics, Lund UniversityDepartment of Physics, Lund UniversityDepartment of Physics, Lund UniversityDepartment of Physics, Lund UniversityDepartment of Physics, University of GothenburgDepartment of Physics, Lund UniversityDepartment of Microtechnology and Nanoscience—MC2, Chalmers University of TechnologyDepartment of Physics, Lund UniversityDepartment of Physics, Stockholm University, AlbaNova University CenterDepartment of Physics, Lund UniversityHere the authors report experiment and theory study of the photoionization of xenon inner shell 4d electron using attosecond pulses. They have identified two ionization paths - one corresponding to broad giant dipole resonance with short decay time and the other involving spin-flip transitions.https://doi.org/10.1038/s41467-020-18847-1
collection DOAJ
language English
format Article
sources DOAJ
author Shiyang Zhong
Jimmy Vinbladh
David Busto
Richard J. Squibb
Marcus Isinger
Lana Neoričić
Hugo Laurell
Robin Weissenbilder
Cord L. Arnold
Raimund Feifel
Jan Marcus Dahlström
Göran Wendin
Mathieu Gisselbrecht
Eva Lindroth
Anne L’Huillier
spellingShingle Shiyang Zhong
Jimmy Vinbladh
David Busto
Richard J. Squibb
Marcus Isinger
Lana Neoričić
Hugo Laurell
Robin Weissenbilder
Cord L. Arnold
Raimund Feifel
Jan Marcus Dahlström
Göran Wendin
Mathieu Gisselbrecht
Eva Lindroth
Anne L’Huillier
Attosecond electron–spin dynamics in Xe 4d photoionization
Nature Communications
author_facet Shiyang Zhong
Jimmy Vinbladh
David Busto
Richard J. Squibb
Marcus Isinger
Lana Neoričić
Hugo Laurell
Robin Weissenbilder
Cord L. Arnold
Raimund Feifel
Jan Marcus Dahlström
Göran Wendin
Mathieu Gisselbrecht
Eva Lindroth
Anne L’Huillier
author_sort Shiyang Zhong
title Attosecond electron–spin dynamics in Xe 4d photoionization
title_short Attosecond electron–spin dynamics in Xe 4d photoionization
title_full Attosecond electron–spin dynamics in Xe 4d photoionization
title_fullStr Attosecond electron–spin dynamics in Xe 4d photoionization
title_full_unstemmed Attosecond electron–spin dynamics in Xe 4d photoionization
title_sort attosecond electron–spin dynamics in xe 4d photoionization
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2020-10-01
description Here the authors report experiment and theory study of the photoionization of xenon inner shell 4d electron using attosecond pulses. They have identified two ionization paths - one corresponding to broad giant dipole resonance with short decay time and the other involving spin-flip transitions.
url https://doi.org/10.1038/s41467-020-18847-1
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