Separation of recollision mechanisms in nonsequential strong field double ionization of Ar: the role of excitation tunneling

Separation of recollision mechanisms in nonsequential strong field double ionization of Ar: the role of excitation tunneling

Vector momentum distributions of two electrons created in double ionization of Ar by 25 fs, 0.25 PW/cm(2) laser pulses at 795 nm have been measured using a "reaction microscope." At this intensity, where nonsequential ionization dominates, distinct correlation patterns are observed in the...

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Veröffentlicht in:Physical review letters 2001-07, Vol.87 (4), p.043003-043003, Article 043003
Hauptverfasser: Feuerstein, B, Moshammer, R, Fischer, D, Dorn, A, Schröter, C D, Deipenwisch, J, Crespo Lopez-Urrutia, J R, Höhr, C, Neumayer, P, Ullrich, J, Rottke, H, Trump, C, Wittmann, M, Korn, G, Sandner, W
Format: Artikel
Sprache:eng
Schlagworte:
CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS
ELECTRONS
EXCITATION
IONIZATION
LASERS
SPECTRA
TUNNELING
VECTORS
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Zusammenfassung:Vector momentum distributions of two electrons created in double ionization of Ar by 25 fs, 0.25 PW/cm(2) laser pulses at 795 nm have been measured using a "reaction microscope." At this intensity, where nonsequential ionization dominates, distinct correlation patterns are observed in the two-electron momentum distributions. A kinematical analysis of these spectra within the classical "recollision model" revealed an (e,2e)-like process and excitation with subsequent tunneling of the second electron as two different ionization mechanisms. This allows a qualitative separation of the two mechanisms demonstrating that excitation-tunneling is the dominant contribution to the total double ionization yield.
ISSN:0031-9007
1079-7114
DOI:10.1103/physrevlett.87.043003