Manipulating twisted electrons in strong-field ionization

We investigate the discrete orbital angular momentum (OAM) of photoelectrons freed in strong-field ionization. We use these 'twisted' electrons to provide an alternative interpretation on existing experimental work of vortex interferences caused by strong field ionization mediated by two c...

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Published inFaraday discussions Vol. 228; pp. 394 - 412
Main Authors Maxwell, A. S, Armstrong, G. S. J, Ciappina, M. F, Pisanty, E, Kang, Y, Brown, A. C, Lewenstein, M, Figueira de Morisson Faria, C
Format Journal Article
LanguageEnglish
Published England Royal Society of Chemistry 27.05.2021
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Abstract We investigate the discrete orbital angular momentum (OAM) of photoelectrons freed in strong-field ionization. We use these 'twisted' electrons to provide an alternative interpretation on existing experimental work of vortex interferences caused by strong field ionization mediated by two counter-rotating circularly polarized pulses separated by a delay. Using the strong field approximation, we derive an interference condition for the vortices. In computations for a neon target we find very good agreement of the vortex condition with photoelectron momentum distributions computed with the strong field approximation, as well as with the time-dependent methods Qprop and R-Matrix. For each of these approaches we examine the OAM of the photoelectrons, finding a small number of vortex states localized in separate energy regions. We demonstrate that the vortices arise from the interference of pairs of twisted electron states. The OAM of each twisted electron state can be directly related to the number of arms of the spiral in that region. We gain further understanding by recreating the vortices with pairs of twisted electrons and use this to determine a semiclassical relation for the OAM. A discussion is included on measuring the OAM in strong field ionization directly or by employing specific laser pulse schemes as well as utilizing the OAM in time-resolved imaging of photo-induced dynamics. We investigate the orbital angular momentum (OAM) of photoelectrons freed in strong-field ionization. We use this to provide an explanation for interference vortices and discuss utilizing the OAM in time-resolved imaging of photo-induced dynamics.
AbstractList We investigate the discrete orbital angular momentum (OAM) of photoelectrons freed in strong-field ionization. We use these 'twisted' electrons to provide an alternative interpretation on existing experimental work of vortex interferences caused by strong field ionization mediated by two counter-rotating circularly polarized pulses separated by a delay. Using the strong field approximation, we derive an interference condition for the vortices. In computations for a neon target we find very good agreement of the vortex condition with photoelectron momentum distributions computed with the strong field approximation, as well as with the time-dependent methods Qprop and R-Matrix. For each of these approaches we examine the OAM of the photoelectrons, finding a small number of vortex states localized in separate energy regions. We demonstrate that the vortices arise from the interference of pairs of twisted electron states. The OAM of each twisted electron state can be directly related to the number of arms of the spiral in that region. We gain further understanding by recreating the vortices with pairs of twisted electrons and use this to determine a semiclassical relation for the OAM. A discussion is included on measuring the OAM in strong field ionization directly or by employing specific laser pulse schemes as well as utilizing the OAM in time-resolved imaging of photo-induced dynamics. We investigate the orbital angular momentum (OAM) of photoelectrons freed in strong-field ionization. We use this to provide an explanation for interference vortices and discuss utilizing the OAM in time-resolved imaging of photo-induced dynamics.
We investigate the discrete orbital angular momentum (OAM) of photoelectrons freed in strong-field ionization. We use these ‘twisted’ electrons to provide an alternative interpretation on existing experimental work of vortex interferences caused by strong field ionization mediated by two counter-rotating circularly polarized pulses separated by a delay. Using the strong field approximation, we derive an interference condition for the vortices. In computations for a neon target we find very good agreement of the vortex condition with photoelectron momentum distributions computed with the strong field approximation, as well as with the time-dependent methods Qprop and R-Matrix. For each of these approaches we examine the OAM of the photoelectrons, finding a small number of vortex states localized in separate energy regions. We demonstrate that the vortices arise from the interference of pairs of twisted electron states. The OAM of each twisted electron state can be directly related to the number of arms of the spiral in that region. We gain further understanding by recreating the vortices with pairs of twisted electrons and use this to determine a semiclassical relation for the OAM. A discussion is included on measuring the OAM in strong field ionization directly or by employing specific laser pulse schemes as well as utilizing the OAM in time-resolved imaging of photo-induced dynamics.
Author Maxwell, A. S
Armstrong, G. S. J
Kang, Y
Pisanty, E
Figueira de Morisson Faria, C
Brown, A. C
Lewenstein, M
Ciappina, M. F
AuthorAffiliation The Barcelona Institute of Science and Technology
Centre for Theoretical Atomic, Molecular and Optical Physics
ICREA
Queen's University Belfast
ICFO-Institut de Ciencies Fotoniques
School of Mathematics and Physics
University College London
Department of Physics & Astronomy
Guangdong Technion - Israel Institute of Technology
Physics Program
Technion - Israel Institute of Technology
AuthorAffiliation_xml – name: The Barcelona Institute of Science and Technology
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Snippet We investigate the discrete orbital angular momentum (OAM) of photoelectrons freed in strong-field ionization. We use these 'twisted' electrons to provide an...
We investigate the discrete orbital angular momentum (OAM) of photoelectrons freed in strong-field ionization. We use these ‘twisted’ electrons to provide an...
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SubjectTerms Angular momentum
Approximation
Circular polarization
Electron states
Electrons
Field ionization
Interference
Mathematical analysis
Neon
Photoelectrons
Time dependence
Vortices
Title Manipulating twisted electrons in strong-field ionization
URI https://www.ncbi.nlm.nih.gov/pubmed/33591304
https://www.proquest.com/docview/2532457674
https://search.proquest.com/docview/2490123798
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