Generation of vortex electrons by atomic photoionization

Generation of vortex electrons by atomic photoionization

We explore the process of orbital angular momentum (OAM) transfer from a twisted light beam to an electron in atomic ionization within the first Born approximation. The characteristics of the ejected electron are studied regardless of the detection scheme. We find that the outgoing electron possesse...

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Veröffentlicht in:arXiv.org 2024-11
Hauptverfasser: Pavlov, I I, Chaikovskaia, A D, Karlovets, D V
Format: Artikel
Sprache:eng
Schlagworte:
Angular momentum
Born approximation
Coherence length
Electrons
Light beams
Photoionization
Photon beams
Photons
Physics - Atomic Physics
Physics - High Energy Physics - Phenomenology
Physics - Optics
Physics - Quantum Physics
Wave dispersion
Wave packets
Wave propagation
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Zusammenfassung:We explore the process of orbital angular momentum (OAM) transfer from a twisted light beam to an electron in atomic ionization within the first Born approximation. The characteristics of the ejected electron are studied regardless of the detection scheme. We find that the outgoing electron possesses a definite projection of OAM when a single atom is located on the propagation axis of the photon, whereas the size of the electron wave packet is determined solely by the energy of the photon rather than by its transverse coherence length. Shifting the position of the atom yields a finite dispersion of the electron OAM. We also study a more experimentally feasible scenario - a localized finite-sized atomic target - and develop representative approaches to describing coherent and incoherent regimes of photoionization.
ISSN:2331-8422
DOI:10.48550/arxiv.2405.15030