Correlated electronic decay following intense near-infrared ionization of clusters
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Date
2015
Volume
635
Issue
Journal
Series Titel
Book Title
Publisher
Bristol : IOP Publ.
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Abstract
We report on a novel correlated electronic decay process following extensive Rydberg atom formation in clusters ionized by intense near-infrared fields. A peak close to the atomic ionization potential is found in the electron kinetic energy spectrum. This new contribution is attributed to an energy transfer between two electrons, where one electron decays from a Rydberg state to the ground state and transfers its excess energy to a weakly bound cluster electron in the environment that can escape from the cluster. The process is a result of nanoplasma formation and is therefore expected to be important, whenever intense laser pulses interact with nanometer-sized particles.
Description
Keywords
Atoms, Electrons, Energy transfer, Ground state, Infrared devices, Ionization, Kinetic energy, Kinetics, Rydberg states, Cluster electrons, Electron decay, Electron kinetic energy, Electronic decay, Excess energy, Intense laser pulse, Nanometer-sized particles, Near Infrared, Ionization potential, Konferenzschrift
Citation
Schütte, B., Arbeiter, M., Fennel, T., Jabbari, G., Kuleff, A. I., Vrakking, M. J. J., & Rouzée, A. (2015). Correlated electronic decay following intense near-infrared ionization of clusters. 635. https://doi.org//10.1088/1742-6596/635/1/012025
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License
CC BY 3.0 Unported