Multiplasmon excitations in electron spectra of small systems irradiated by swift charged projectiles

Dinh PM, Reinhard PG, Suraud E, Wopperer P (2015)

Publication Type: Journal article

Publication year: 2015

Journal

European Physical Journal D EDP Sciences: EPJ

Book Volume: 69

Article Number: 61

Journal Issue: 2

DOI: 10.1140/epjd/e2015-50650-6

Abstract

We investigate the kinetic-energy spectrum of electrons emitted from an excited many-electron system, often called photo-electron spectrum (PES). We are particularly interested on the impact of resonant modes of the system on PES. To this end, we consider three systems with strong resonances, a Mg atom, the small alkaline cluster K9 +, and the small carbon chain C3. To avoid dominant frequencies in the excitation process, we consider a collision with a fast ion which is realized by an instantaneous boost of the valence electrons, a process which excites all frequencies with equal weight. The electron dynamics is investigated from a theoretical perspective using time-dependent density-functional theory augmented by an average-density self-interaction correction. We observe patterns which are similar to PES usually obtained after irradiation by a laser pulse, in particular the appearance of clear peaks. We show that these patterns are driven by strong resonance modes of the system. Resonances are thus found to be another source of peaks in the PES, besides photons (when present) with definite frequencies.

Authors with CRIS profile

Paul-Gerhard Reinhard Naturwissenschaftliche Fakultät

Involved external institutions

Université Toulouse III - Paul Sabatier FR France (FR)

How to cite

APA:

Dinh, P.M., Reinhard, P.-G., Suraud, E., & Wopperer, P. (2015). Multiplasmon excitations in electron spectra of small systems irradiated by swift charged projectiles. European Physical Journal D, 69(2). https://doi.org/10.1140/epjd/e2015-50650-6

MLA:

Dinh, Phuong Mai, et al. "Multiplasmon excitations in electron spectra of small systems irradiated by swift charged projectiles." European Physical Journal D 69.2 (2015).

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